O. Reg. 388/97: FIRE CODE, Fire Protection and Prevention Act, 1997, S.O. 1997, c. 4
Fire Protection and Prevention Act, 1997
Loi de 1997 sur la prévention et la protection contre l’incendie
ONTARIO REGULATION 388/97
FIRE CODE
Note: This Regulation was revoked on November 21, 2007. See: O. Reg. 213/07, Division C, ss. 2.1.1.1., 2.1.2.1.
Last amendment: O. Reg. 213/07.
This Regulation is made in English only.
PART 1
APPLICATION AND DEFINITIONS
TABLE OF CONTENTS
SECTION 1.1 |
APPLICATION |
Subsection 1.1.1. |
General |
Subsection 1.1.2. |
Records of Tests and Inspections |
Subsection 1.1.3. |
Demolition |
Subsection 1.1.4. |
Required Testing |
Subsection 1.1.5. |
Qualification and Responsibilities of Persons Performing Tests, Inspections and Maintenance of Fire Protection Equipment |
Subsection 1.1.6. |
Exemptions |
Subsection 1.1.7. |
Standards Referenced |
Subsection 1.1.8. |
Chief Fire Official |
SECTION 1.2 |
DEFINITIONS OF WORDS AND PHRASES |
Subsection 1.2.1. |
Definitions |
SECTION 1.3 |
ABBREVIATIONS |
Subsection 1.3.1. |
Abbreviations of Names of Associations |
Subsection 1.3.2. |
Abbreviations of Words and Phrases |
SECTION 1.1APPLICATION
Subsection 1.1.1.General
1.1.1.1. Unless otherwise specified, the owner shall be responsible for carrying out the provisions of this Code.
1.1.1.2. Where tests, repairs or alterations are made to fire protection installations, including sprinkler and standpipe systems, a procedure of notification shall be established, and the procedure shall include notifying the fire department and the building occupants where necessary for safety in the event of a fire emergency.
1.1.1.3. Any appliance, device or component of a device that does not operate or appear to operate as intended when checked, inspected or tested as required by this Code shall be repaired or replaced if the failure or malfunctioning of the appliance, device or component would adversely affect fire or life safety.
Subsection 1.1.2. Records of Tests and Inspections
1.1.2.1. (1) Except as required in Sentence (2), written records shall be kept of tests and corrective measures for two years after they are made, and the records shall be available upon request to the Chief Fire Official.
(2) If the time interval between tests exceeds 2 years, the written records shall be kept for the period of the test interval plus one year.
(3) In addition to the requirements of Sentences (1) and (2), in facilities regulated by or under the Developmental Services Act, written records shall be kept of inspections for two years after they are made, and the records shall be available upon request to the Chief Fire Official.
Subsection 1.1.3.Demolition
1.1.3.1. Permits for the demolition or partial demolition of a building are required under the Building Code.
Subsection 1.1.4.Required Testing
1.1.4.1. Where a building or its contents must be tested for compliance with this Code, the tests shall be carried out by the owner or the owner’s agent within such reasonable time as the Chief Fire Official may determine.
1.1.4.2. (1) The tests referred to in Article 1.1.4.1. may be carried out by the Chief Fire Official.
(2) The Chief Fire Official shall only take such samples as are necessary in the circumstances in order to carry out the tests referred to in Article 1.1.4.1.
Subsection 1.1.5.Qualification and Responsibilities of Persons Performing Tests, Inspections and Maintenance of Fire Protection Equipment
1.1.5.1. The requirements of this Subsection come into force on the 21st day of November, 1999.
1.1.5.2. Any person performing tests, inspections and maintenance of fire alarm systems, with or without voice communication capability, shall be responsible for complying with the requirements of Articles 1.1.5.3. and 1.1.5.4.
1.1.5.3. (1) Any person who performs the annual tests or annual inspections of a fire alarm system required under Article 6.3.2.2. and any person who repairs, replaces or alters components of a fire alarm system shall
(a) have successfully completed a program or course acceptable to the Fire Marshal,
(b) produce for inspection, upon request by the owner or the Chief Fire Official, a copy of a certificate or document attesting to the successful completion of a program or course referenced in Clause (a), and
(c) perform the inspection, test, repair, replacement or alteration in accordance with Article 6.3.1.8. and Subsection 6.3.2.
(2) Despite Sentence (1), a person who has not successfully completed the required program or course may perform the work described in Clause (1)(c) provided that
(a) the work is done under the supervision of a person who has successfully completed a program or course required by Clause (1)(a),
(b) no more than two persons work under the supervision of the person referred to in Clause (a), and
(c) the supervision is provided at the work site.
(3) Any person supervising another as permitted in Sentence (2) shall
(a) advise the owner in writing that the work has been completed in accordance with Article 6.3.1.8. and Subsection 6.3.2., and
(b) be deemed to be the person referred to in Article 1.1.5.4.
1.1.5.4. Despite Article 1.1.1.1., any person who performs the annual tests or annual inspections of a fire alarm system required by Article 6.3.2.2. and any person who repairs, replaces or alters components of a fire alarm system shall be responsible for carrying out the provisions of Article 1.1.5.3.
Subsection 1.1.6.Exemptions
1.1.6.1. A farm building with an occupant load of not more than one person per 40 m2 of floor area during normal use and other premises on a farm used for farming purposes are exempt from the requirements of this Code.
1.1.6.2. RESERVED
1.1.6.3. The requirements of Articles 2.6.1.12., 2.6.2.1., 2.6.3.2., 3.2.1.2., 5.4.2.3., 5.4.5.1., 5.5.6.1., 5.6.2.4., 5.12.2.3., 5.12.8.2., 5.13.6.1., and 5.18.3.3. and Sections 9.2 to 9.8 do not apply to installations or construction that meet the requirements of the Fire Code made under the Fire Marshals Act, as it read on the 20th day of November, 1997.
Subsection 1.1.7.Standards Referenced
1.1.7.1. In the event of a conflict between this Code and any standard, document, manual or handbook referred to herein, this Code shall apply.
1.1.7.2. A reference in this Code to a document listed in Table 1.1.7.A. is to the edition designated in the table.
1.1.7.3. (1) A reference in this Code to a document listed in Table 1.1.7.A. includes all amendments up to and including April 30, 1997.
(2) Despite Sentence (1), CAN/ULC-S643-M90, “Shop Fabricated Steel Aboveground Utility Tanks for Flammable and Combustible Liquids”, includes all amendments up to and including June 30, 1998.
1.1.7.4. Despite Articles 1.1.7.2. and 1.1.7.3., the Chief Fire Official may permit compliance with an edition of a document previous to that referred to in this Code if the Chief Fire Official is satisfied that compliance with the edition referred to in this Code is impractical.
1.1.7.5. If a document in this Code refers to another document, only those portions of the second document that are specific to the subject matter are applicable.
TABLE 1.1.7.A.
Forming Part of Article 1.1.7.2.
Issuing Agency |
Document Number |
Title of Document |
Code Reference |
ANSI/ ASME |
Boiler and Pressure Vessel Code 1992 |
4.3.1.3.(1) 4.4.10.5.(2) 4.4.10.6.(1) | |
ANSI/ ASME |
B16.5-1988 |
Pipe Flanges and Flanged Fittings |
4.4.5.3.(1) |
ANSI/ ASME |
B31.3-1993 |
Chemical Plant and Petroleum Refinery Piping |
4.4.2.1.(5) |
API |
5L-1992 |
Line Pipe |
4.4.2.1.(4) |
API |
12B-1990 |
Bolted Tanks for Storage of Production Liquids |
4.3.1.2.(1) |
API |
12D-1982 |
Field Welded Tanks for Storage of Production Liquids |
4.3.1.2.(1) |
API |
12F-1994 |
Shop Welded Tanks for Storage of Production Liquids |
4.3.1.2.(1) |
API |
620-1990 |
Design and Construction of Large, Welded, Low-Pressure Storage Tanks |
4.3.1.3.(1) 4.3.3.1.(1) |
API |
650-1993 |
Welded Steel Tanks for Oil Storage |
4.3.1.2.(1) 4.3.3.1.(1) |
API |
1104-1994 |
Welding Pipelines and Related Facilities |
4.4.5.2.(1) |
API |
RP 1107-1991 |
Recommended Pipeline Maintenance Welding Practices |
4.4.5.2.(1) 4.4.11.7.(6) |
API |
2000-1992 |
Venting Atmospheric and Low-Pressure Storage Tanks |
4.3.4.1.(1) |
API |
2200-1994 |
Repairs to Crude Oil, Liquefied Petroleum Gas and Products Pipelines |
4.4.11.7.(6) |
API |
2201-1985 |
Welding or Hot Tapping on Equipment Containing Flammables |
4.4.11.7.(6) |
ASTM |
A 53-93a |
Pipe, Steel, Black and Hot-Dipped, Zinc-Coated, Welded and Seamless |
4.4.2.1.(4) |
ASTM |
A 193/A 193M-94a |
Alloy-Steel and Stainless Steel Bolting Materials for High Temperature Services |
4.4.5.4. |
ASTM |
D 56-93 |
Flash Point by Tag Closed Tester |
4.1.3.1.(1) |
ASTM |
D 93-90 |
Flash Point by Pensky-Martens Closed Tester |
4.1.3.1.(2) |
ASTM |
D 323-90 |
Vapor Pressure of Petroleum Products (Reid Method) |
1.2.1.2. (Vapour pressure) |
ASTM |
D 3278-89 |
Flash Point of Liquids by Setaflash Closed-Cup Apparatus |
4.1.3.1.(4) |
ASTM |
D 3828-93 |
Flash Point by Small Scale Closed Tester |
4.1.3.1.(3) |
CGA |
P-1-1991 |
Safe Handling of Compressed Gases in Containers |
5.6.1.1. (3) |
CGSB |
CAN2-4.2-M77 |
Textile Test Methods, Test Method 27.1 |
2.3.2.1.(1) |
CGSB |
CAN/CGSB-24.3-M92 |
Identification of Piping Systems |
4.3.1.7. 4.4.4.1.(3) 4.4.8.7.(1) |
CPPI |
Using the CPPI Colour-Symbol System to Mark Equipment and Vehicles for Product Identification (1990) |
4.3.1.7. 4.4.4.1.(3) 4.4.8.7.(1) | |
CPPI |
PACE Report No. 87-1 |
Impressed Current Method of Cathodic Protection of Underground Petroleum Storage Tanks |
4.3.9.1.(2) 4.4.3.1.(2) |
CSA |
B51-94 |
Boiler, Pressure Vessel and Pressure Piping Code |
4.3.1.3.(2) |
CSA |
B306-M1977 |
Portable Fuel Tanks for Marine Use |
4.2.3.1.(1) |
CSA |
B346-M1980 |
Power-Operated Dispensing Devices for Flammable Liquids |
4.5.3.1. |
CSA |
CAN/CSA-B365-M91 |
Installation Code for Solid-Fuel-Burning Appliances and Equipment |
2.6.2.1. 2.6.2.2. |
CSA |
B376-M1980 |
Portable Containers for Gasoline and Other Petroleum Fuels |
4.2.3.1.(1) |
CSA |
B620-1987 |
Highway Tanks and Portable Tanks for the Transportation of Dangerous Goods |
4.2.3.1.(1) |
CSA |
C22.2 No. 141-M1985 |
Unit Equipment for Emergency Lighting |
9.9.5.5.(2) |
CSA |
C282-05 |
Emergency Electrical Power Supply for Buildings |
6.7.1.1.(1) 6.7.1.3. 9.9.5.5.(1), (2) |
CSA |
CSA-W117.2-M87 |
Code for Safety in Welding and Cutting |
5.17.1.1. |
CSA |
Z245.1-93 |
Steel Line Pipe |
4.4.2.1.(4) |
CSA |
CAN/CSA-Z305.12-98 |
Guide for the Safe Storage, Handling, and Use of Portable Oxygen Systems in Home, Domiciliary, and Healthcare Settings |
2.15 |
NFPA |
10-1990 |
Portable Fire Extinguishers |
6.2.7.1. |
NFPA |
11-1994 |
Low-Expansion Foam |
4.3.2.5.(2) 4.8.4.3.(4) 6.8.1.1.(1) |
NFPA |
11A-1994 |
Medium-and High-Expansion Foam Systems |
4.8.4.3.(4) 6.8.1.1.(1) |
NFPA |
12-1993 |
Carbon Dioxide Extinguishing Systems |
4.8.4.3.(4) 6.8.1.1.(1) |
NFPA |
12A-1992 |
Halon 1301 Fire Extinguishing Systems |
4.8.4.3.(4) 6.8.1.1.(1) |
NFPA |
12B-1990 |
Halon 1211 Fire Extinguishing Systems |
6.8.1.1.(1) |
NFPA |
13-1994 |
Installation of Sprinkler Systems |
4.8.4.3.(4) 4.9.4.1.(2) 5.4.2.3. 5.4.5.1. 5.5.6.1.(1) 5.12.8.2.(1) 5.13.6.1. 6.5.1.1. 9.2.5.2.(4) Table 9.2.5.A. 9.5.5.3.(2) 9.6.5.5.(2) |
NFPA |
13D-1994 |
Installation of Sprinkler Systems in One-and Two-Family Dwellings and Manufactured Homes |
9.8.5.1. |
NFPA |
13R-1994 |
Installation of Sprinkler Systems in Residential Occupancies Up to and Including Four Stories in Height |
9.5.5.3.(2) |
NFPA |
15-1990 |
Water Spray Fixed Systems for Fire Protection |
4.3.2.5.(2) 4.8.4.3.(4) 6.8.1.1.(1) |
NFPA |
16-1999 |
Foam-Water Sprinkler and Foam-Water Spray Systems |
4.8.4.3.(4) 6.8.1.1.(1) |
NFPA |
17-1994 |
Dry Chemical Extinguishing Systems |
4.8.4.3.(4) 6.8.1.1.(1) |
NFPA |
17A-1994 |
Wet Chemical Extinguishing Systems |
6.8.1.1(1) |
NFPA |
18-1995 |
Wetting Agents |
6.8.1.1.(1) |
NFPA |
24-1995 |
Installation of Private Fire Service Mains and their Appurtenances |
4.8.4.3.(4) |
NFPA |
25-1995 |
Inspection, Testing, and Maintenance of Water-Based Fire Protection Systems |
4.8.4.3.(4) |
NFPA |
30-1993 |
Flammable and Combustible Liquids Code |
4.2.7.7.(1) |
NFPA |
32-1990 |
Drycleaning Plants |
3.6.1.1.(1) |
NFPA |
33-1995 |
Spray Application Using Flammable or Combustible Materials |
5.12.3.5. 5.12.8.2.(2) |
NFPA |
37-1990 |
Stationary Combustion Engines and Gas Turbines |
4.3.12.2. |
NFPA |
40-1994 |
Storage and Handling of Cellulose Nitrate Motion Picture Film |
5.4.4.2. |
NFPA |
40E-1993 |
Storage of Pyroxylin Plastic |
5.4.3.3.(1) |
NFPA |
51-1992 |
Oxygen-Fuel Gas Systems for Welding, Cutting and Allied Processes |
5.17.2.1. |
NFPA |
55-1993 |
Storage, Use and Handling of Compressed and Liquefied Gases in Portable Cylinders |
5.6.1.1. (3) |
NFPA |
68-1994 |
Guide for Venting of Deflagrations |
4.2.9.6. 4.3.13.3. 4.8.3.1. 4.8.4.2.(1) 5.6.2.4.(1) 5.18.3.3.(2) |
NFPA |
69-1992 |
Explosion Prevention Systems |
4.3.2.5.(2) 4.8.4.2.(1) |
NFPA |
72D-1986 |
Installation, Maintenance and Use of Proprietary Protective Signalling Systems |
6.3.1.2. |
NFPA |
80A-1993 |
Protection of Buildings from Exterior Fire Exposures |
3.5.3.5.(3) |
NFPA |
82-1994 |
Incinerators and Waste and Linen Handling Systems and Equipment |
2.6.3.1.(2) 2.6.3.2. |
NFPA |
86-1995 |
Ovens and Furnaces |
4.4.9.5.(2) 5.18.4.1. |
NFPA |
91-1992 |
Exhaust Systems for Air-Conveying of Materials |
3.2.1.2. 4.12.8.4.(1) 5.18.3.3.(2) |
NFPA |
96-1994 |
Ventilation Control and Fire Protection of Commercial Cooking Operations |
2.6.1.12.(1) 2.6.1.13. |
NFPA |
231-1995 |
General Storage |
3.3.2.10.(3) |
NFPA |
231D-1994 |
Storage of Rubber Tires |
3.3.1.8.(1) 3.3.1.9. 3.5.3.5.(3) |
NFPA |
291-1995 |
Fire Flow Testing and Marking of Hydrants |
6.6.6.1. |
NFPA |
505-1992 |
Powered Industrial Trucks Including Type Designations, Areas of Use, Maintenance, and Operation |
3.4.1.1. |
NFPA |
701-1989 |
Standard Methods of Fire Tests for Flame-Resistant Textiles and Films |
2.3.2.2. 2.9.2.1. |
NFPA |
1231-1993 |
Water Supplies for Suburban and Rural Fire Fighting |
3.5.3.11.(4) |
TC |
CTC 1977-3 RAIL |
Pipe Crossings under Railways (No. E-10) Regulations |
4.4.7.4.(3) |
TC |
CTC 1982-8 RAIL |
Railway Prevention of Electric Sparks Regulations |
4.6.4.5.(2) 4.7.5.1.(1) |
TC |
General Order No. O-32 |
Flammable Liquids Bulk Storage Regulations |
4.4.7.4.(4) 4.6.2.2. 4.6.4.1.(2) |
UL |
ULI 1275-1994 |
Flammable Liquid Storage Cabinets |
4.2.10.5. |
ULC |
C842-M1984 |
Valves for Flammable and Combustible Liquids |
4.4.8.1.(1) |
ULC |
C1275-1984 |
Storage Cabinets for Flammable Liquid Containers |
4.2.10.5. |
ULC |
CAN4-S111-M80 |
Standard Method of Fire Tests for Air Filter Units |
5.12.2.3. |
ULC |
CAN/ULC-S508-M90 |
Rating and Fire Testing of Fire Extinguishers |
6.2.2.1. |
ULC |
CAN/ULC-S524-M91 |
Installation of Fire Alarm Systems |
6.3.1.8. 9.9.4.12.(1) |
ULC |
CAN/ULC-S531-M87 |
Smoke Alarms |
2.13.2.3.(1) 9.5.4.5.(3) 9.6.4.10.(3) 9.8.4.2.(3) 9.9.4.13.(2) |
ULC |
CAN/ULC-S536-M97 |
Inspection and Testing of Fire Alarm Systems |
6.3.2.2. 6.3.2.4. |
ULC |
CAN/ULC-S537-M97 |
Standard for the Verification of Fire Alarm Systems |
9.9.4.12.(2) |
ULC |
CAN/ULC-S553-M86 |
Installation of Smoke Alarms |
9.5.4.5.(3) 9.6.4.10.(3) 9.8.4.2.(3) 9.9.4.13.(4) |
ULC |
ULC-S601-93 |
Shop Fabricated Steel Aboveground Horizontal Tanks for Flammable and Combustible Liquids |
4.3.1.2.(1) |
ULC |
CAN4-S601(A)-1991 |
Shop Refurbishing of Steel Aboveground Horizontal Tanks for Flammable and Combustible Liquids |
4.10.4.2.(3) |
ULC |
CAN/ULC-S602-M92 |
Aboveground Steel Tanks for Fuel Oil and Lubricating Oil |
4.3.1.2.(1) |
ULC |
CAN/ULC-S603-M92 |
Steel Underground Tanks for Flammable and Combustible Liquids |
4.3.1.2.(1) 4.3.15.4.(5) |
ULC |
CAN4-S603(A)-1992 |
Refurbishing of Steel Underground Tanks for Flammable and Combustible Liquids |
4.10.4.2.(3) |
ULC |
CAN/ULC-S603.1-M92 |
Galvanic Corrosion Protection Systems for Steel Underground Tanks for Flammable and Combustible Liquids |
4.3.1.2.(1) 4.3.8.5.(1) 4.3.9.1.(1) 4.4.3.1.(2) |
ULC |
CAN/ULC-S612-M88 |
Hose for Flammable and Combustible Liquids |
4.5.5.1.(1) |
ULC |
CAN4-S615-M83 |
Reinforced Plastic Underground Tanks for Petroleum Products |
4.3.1.2.(1) 4.3.8.5.(2) 4.3.15.4.(5) |
ULC |
CAN/ULC-S620-M90 |
Hose Nozzle Valves for Flammable and Combustible Liquids |
4.4.8.1.(2) 4.5.5.2.(1) |
ULC |
ULC-S630-93 |
Shop Fabricated Steel Aboveground Vertical Tanks for Flammable and Combustible Liquids |
4.3.1.2.(1) 4.3.3.2.(1) |
ULC |
CAN4-S630(A)-1991 |
Shop Refurbishing of Steel Aboveground Vertical Tanks for Flammable and Combustible Liquids |
4.10.4.2.(3) |
ULC |
CAN/ULC-S633-M90 |
Flexible Underground Hose Connectors for Flammable and Combustible Liquids |
4.4.7.13.(2) |
ULC |
CAN/ULC-S642-M87 |
Compounds and Tapes for Threaded Pipe Joints |
4.4.5.1. |
ULC |
CAN/ULC-S643-M90 |
Shop Fabricated Steel Aboveground Utility Tanks for Flammable and Combustible Liquids |
1.1.7.3.(2) 4.3.1.2.(1) 4.3.7.4.(2) |
ULC |
CAN/ULC-S644-M90 |
Emergency Breakaway Fittings for Flammable and Combustible Liquids |
4.5.5.2.(4) |
ULC |
CAN/ULC-S651-M90 |
Emergency Valves for Flammable and Combustible Liquids |
4.4.8.1.(3) 4.5.6.3.(1) |
ULC |
ULC-S652-93 |
Tank Assemblies for Collection of Used Oil |
4.3.1.2.(1) |
ULC |
ULC-S653-94 |
Aboveground Steel Contained Tank Assemblies for Flammable and Combustible Liquids |
4.3.1.2.(1) |
ULC |
ULC-S655-98 |
Aboveground Protected Tank Assemblies for Flammable and Combustible Liquids |
4.3.1.2.(1) 4.3.2.1.(7) |
ULC |
ULC/ORD-C30-1995 |
Safety Containers |
4.1.5.9.(2) 4.2.3.1.(1) 4.2.6.4. |
ULC |
ULC/ORD-C58.9-1993 |
Secondary Containment Liners for Underground and Aboveground Flammable and Combustible Liquid Tanks |
4.3.7.2.(2) |
ULC |
ULC/ORD-C58.10-1992 |
Jacketed Steel Underground Tanks for Flammable and Combustible Liquids |
4.3.1.2.(1) 4.3.9.1.(2) |
ULC |
ULC/ORD-C58.12-1992 |
Leak Detection Devices (Volumetric Type) for Underground Flammable Liquid Storage Tanks |
4.3.15.1.(3) 4.3.16.2.(1) |
ULC |
ULC/ORD-C58.14-1992 |
Nonvolumetric Leak Detection Devices for Underground Flammable Liquid Storage Tanks |
4.3.15.1.(3) 4.3.16.2.(1) |
ULC |
ULC/ORD-C58.15-1992 |
Overfill Protection Devices for Flammable Liquid Storage Tanks |
4.3.1.8.(1) |
ULC |
ULC/ORD-C107.4-1992 |
Ducted Flexible Underground Piping Systems for Flammable and Combustible Liquids |
4.4.2.1.(3) |
ULC |
ULC/ORD-C107.7-1993 |
Glass Fibre Reinforced Plastic Pipe and Fittings for Flammable Liquids |
4.4.2.1.(3) |
ULC |
ULC/ORD-C107.12-1992 |
Line Leak Detection Devices for Flammable Liquid Piping |
4.4.6.7. |
ULC |
ULC/ORD-C142.5-1992 |
Concrete Encased Steel Aboveground Tank Assemblies for Flammable and Combustible Liquids |
4.3.1.2.(1) |
ULC |
ULC/ORD-C142.23-1991 |
Aboveground Waste Oil Tanks |
4.3.1.2.(1) |
ULC |
ULC/ORD-C410A-1994 |
Absorbents for Flammable and Combustible Liquids |
4.1.6.3.(4) |
Subsection 1.1.8.Chief Fire Official
1.1.8.1. The Fire Marshal may appoint persons who are assistants to the Fire Marshal to be Chief Fire Officials for the purposes and subject to the limitations and conditions as are set out in the appointment.
1.1.8.2. An appointment made under Article 1.1.8.1. may grant to the person appointed the exclusive authority to exercise all or any of the powers and perform all or any of the duties of a Chief Fire Official with respect to any class or classes of building or occupancy or within the territorial area specified in the appointment and, in such case, no other Chief Fire Official shall exercise such powers or perform such duties.
1.1.8.3. The Municipal Fire Chief may appoint a member of the fire department who is an assistant to the Fire Marshal to be the Chief Fire Official for the purposes and subject to the limitations and conditions as are set out in the appointment.
SECTION 1.2DEFINITIONS OF WORDS AND PHRASES
Subsection 1.2.1.Definitions
1.2.1.1. Definitions of words and phrases that are not included in the list of definitions in this Part shall have the meanings which are commonly assigned to them in the context in which they are used in this Code, taking into account the specialized use of terms by the various trades and professions to which the terminology applies.
1.2.1.2. Except for headings and names of regulations and statutes, the words and terms used in this Code that are in lower case bold face shall have the following meanings:
Access to exit means that part of a means of egress within a floor area that provides access to an exit serving the floor area.
Air-supported structure means a structure that consists of a pliable membrane that achieves and maintains its shape and support by internal air pressure.
Alarm signal means an audible signal transmitted throughout a zone or zones or throughout a building to advise occupants that a fire emergency exists.
Alert signal means an audible signal to advise designated persons of a fire emergency.
Appliance means a device to convert fuel into energy, and includes all components, controls, wiring and piping required to be part of the device by the applicable standard referred to in this Code.
Approved means approved by the Chief Fire Official.
Architect means a member or licensee of the Ontario Association of Architects under the Architects Act.
Assembly occupancy (Group ‘A’) means the occupancy or the use of a building, or part thereof, by a gathering of persons for civic, political, travel, religious, social, educational, recreational or like purposes or for the consumption of food or drink.
Atmospheric storage tank means a storage tank that is designed to operate at pressures from atmospheric to 3.5 kPa (gauge).
Attic space means the space between the roof and the ceiling of the top storey or between a dwarf wall and a sloping roof.
Basement means a storey or storeys of a building located below the first storey.
Boiler means an appliance intended to supply hot water or steam for space heating, processing or power purposes.
Building means any structure used or intended for supporting or sheltering any use or occupancy.
Building area means the greatest horizontal area of a building above grade within the outside surface of exterior walls or within the outside surface of exterior walls and the centre line of firewalls.
Building Code means any version of the Ontario Building Code that was in force at any time since it was made under The Building Code Act, 1974, the Building Code Act of the Revised Statutes of Ontario, 1980, the Building Code Act of the Revised Statutes of Ontario, 1990, the Building Code Act, 1992 or a successor to the Building Code Act, 1992.
Building height (in storeys) means the number of storeys contained between the roof and the floor of the first storey.
Business and personal services occupancy (Group ‘D’) means the occupancy or use of a building or part thereof for the transaction of business or the rendering or receiving of professional or personal services.
Cellar means a basement that is more than 50 per cent below grade.
Check means visual observation to ensure the device or system is in place and is not obviously damaged or obstructed.
Chief Fire Official means the assistant to the Fire Marshal who is the Municipal Fire Chief or a member or members of the fire department appointed by the Municipal Fire Chief under Subsection 1.1.8. or a person appointed by the Fire Marshal under Subsection 1.1.8.
Chimney means a primarily vertical shaft enclosing at least 1 flue for conducting flue gases to the outdoors.
Class A fire means a fire involving combustible materials such as wood, cloth and paper.
Class B fire means a fire involving a flammable or combustible liquid, fat or grease.
Class C fire means a fire involving energized electrical equipment.
Class D fire means a fire involving a combustible metal.
Closed container means a container so sealed by means of a lid or other device that neither liquid nor vapour will escape from it at ordinary temperatures.
Closure means a device or assembly for closing an opening through a fire separation such as a door, a shutter, wired glass or glass block and includes all components, such as hardware, closing devices, frames and anchors.
Combustible construction means that type of construction that does not meet the requirements for noncombustible construction.
Combustible dust means dust and particles ignitable and liable to explode when mixed with air.
Combustible fibres means finely divided combustible vegetable or animal fibres and thin sheets or flakes of such materials that in a loose, unbaled condition present a flash fire hazard, and includes cotton, wool, hemp, sisal, jute, kapok, paper and cloth.
Combustible liquid means any liquid having a flash point at or above 37.8oC and below 93.3oC.
Compressed gas means any contained mixture or material with either an absolute pressure exceeding 275.8 kPa at 21oC or an absolute pressure exceeding 717 kPa at 54oC, or both, or any liquid having an absolute vapour pressure exceeding 275.8 kPa at 37.8oC.
Constructor means a person who contracts with an owner, occupant or their authorized agent to undertake a project, and includes an owner, occupant or authorized agent who contracts with more than one person for the work on a project or undertakes the work on a project or any part thereof.
Contained use area means a supervised area containing one or more rooms in which occupant movement is restricted to a single room by security measures not under the control of the occupant.
Corrosive liquid means a liquid that, when contacting living tissue causes damage to the tissue, or when contacting organic matter and chemicals that react with the liquid, causes fire.
Dangerous goods means those products or substances which are regulated by the Transportation of Dangerous Goods Act (Canada) and its Regulations.
Demolition means the doing of anything in the removal of a building or any material part thereof.
Distilled beverage alcohol means a beverage that is produced by fermentation and contains more than 20 per cent by volume of water-miscible alcohol.
Distillery means a process plant where distilled beverage alcohols are produced, concentrated or otherwise processed, and includes facilities on the same site where the concentrated products may be blended, mixed, stored or packaged.
Dwelling unit means a suite operated as a housekeeping unit, used or intended to be used as a domicile by one or more persons and usually containing cooking, eating, living, sleeping and sanitary facilities.
Exit means that part of a means of egress, including doorways, that leads from the floor area it serves to a separate building, an open public thoroughfare or an exterior open space protected from fire exposure from the building and having access to an open public thoroughfare.
Farm building means a building or part thereof associated with and located on land devoted to the practice of farming, and used primarily for the housing of equipment or livestock or the production, storage or processing of agricultural and horticultural produce or feeds, but is not used for residential occupancy.
Fire compartment means an enclosed space in a building that is separated from all other parts of the building by enclosing construction that provides a fire separation having a required fire-resistance rating.
Fire damper means a closure that consists of a damper installed in an air distribution system or in a wall or floor assembly that is normally held in the open position and that is designed to close automatically in the event of a fire in order to maintain the integrity of the fire separation.
Fire department means a group of firefighters authorized to provide fire protection services by a municipality, group of municipalities or by an agreement made under section 3 of the Fire Protection and Prevention Act.
Fire detector means a device which detects a fire condition and automatically initiates an electrical signal to actuate an alert signal or alarm signal and includes heat detectors and smoke detectors.
Fire-protection rating means the time in hours or fraction thereof that a closure, window assembly or glass block assembly will withstand the passage of flame when exposed to fire under specified conditions of test and performance criteria, or as otherwise prescribed in the Building Code.
Fire resistance means the property of a material or assembly in a building to withstand fire or give protection from it and is characterized by the ability of the material or assembly to confine a fire or to continue to perform a given structural function or both.
Fire-resistance rating means the time in hours or fraction thereof that a material or assembly of materials will withstand the passage of flame and the transmission of heat when exposed to fire under specified conditions of test and performance criteria, or as determined by extension or interpretation of information derived therefrom as prescribed in the Building Code.
Fire separation means a construction assembly that acts as a barrier against the spread of fire and may or may not have a fire-resistance rating or a fire-protection rating.
Fire stop means a draft-tight barrier within or between construction assemblies that acts to retard the passage of smoke and flame.
Fire-stop flap means a device intended for use in horizontal assemblies that are required to have a fire-resistance rating and incorporate protective ceiling membranes and that operates to close off a duct opening through the membrane in the event of a fire.
Firewall means a fire separation of noncombustible construction that subdivides a building or separates adjoining buildings to resist the spread of fire that has a fire-resistance rating as prescribed in the Building Code and that has structural stability to remain intact under fire conditions for the required fire-rated time.
First storey means the storey with its floor closest to grade and having its ceiling more than 1.8 m above grade.
Flame-spread rating means an index or classification indicating the extent of spread of flame on the surface of a material or an assembly of materials as determined in the Building Code.
Flammable liquid means a liquid having a flash point below 37.8ºC and having a vapour pressure not more than 275.8 kPa (absolute) at 37.8ºC as determined by ASTM D 323, “Vapor Pressure of Petroleum Products (Reid Method)”.
Flash point means the minimum temperature at which a liquid within a container gives off vapour in sufficient concentration to form an ignitable mixture with air near the surface of the liquid.
Floor area means the space on any storey of a building between exterior walls and required firewalls and includes the space occupied by interior walls and partitions, but does not include exits and vertical service spaces that pierce the storey.
Flue means an enclosed passageway for conveying flue gases.
Flue pipe means the pipe connecting the flue collar of an appliance to a chimney.
Fuel dispensing station means any premises at which flammable or combustible liquids are dispensed from fixed equipment into the fuel tank of a motor vehicle or watercraft.
Furnace means a space-heating appliance that uses warm air as the heating medium and that usually has provision for the attachment of ducts.
Grade means the average level of finished ground adjoining a building at all exterior walls.
Guest suite means a single room or a series of rooms of complementary use providing sleeping accommodation for the travelling public or for recreational purposes in a hotel establishment.
Hazardous location means a location that is or may become subject to conditions conducive to the rapid development of fire or explosion.
Heat detector means a fire detector designed to operate at a predetermined temperature or rate of temperature rise.
Heavy timber construction means that type of combustible construction in which a degree of fire safety is attained by placing limitations on the sizes of wood structural members and on thickness and composition of wood floors and roofs, by avoidance of concealed spaces under floors and roofs and by use of approved fastenings, construction details and adhesives for structural members.
High hazard industrial occupancy (Group ‘F’ Division 1) means an industrial occupancy that contains sufficient quantities of highly combustible and flammable or explosive materials that, because of their inherent characteristics, constitute a special fire hazard.
Hotel means floor areas, a floor area or part of a floor area containing four or more suites that provide sleeping accommodation for the travelling public or for recreational purposes.
Hotel establishment means a building containing a hotel and all subsidiary occupancies that are operated in connection with the hotel and includes all connected or adjacent buildings that are operated in connection with the hotel.
Impeded egress zone means a supervised area in which occupants have free movement but require the release, by security personnel, of security doors at the boundary before they are able to leave the area, but does not include a contained use area.
Individual storage area means the area occupied by piles, bin boxes, racks or shelves, including subsidiary aisles providing access to the stored products, which is separated from the adjacent storage by aisles not less than 2.4 m in width.
Industrial occupancy (Group ‘F’) means the occupancy or use of a building or part thereof for assembling, fabricating, manufacturing, processing, repairing or storing of goods and materials.
Inspect means physical examination to determine that the device or system will apparently perform in accordance with its intended function.
Institutional occupancy (Group ‘B’) means the occupancy or use of a building or part thereof by persons who require supervisory care, medical care or medical treatment or by persons who are under restraint for correctional purposes and are incapable of self preservation because of security measures not under their control.
Listed means equipment or materials included in a list published by a certification organization accredited by the Standards Council of Canada.
Low pressure storage tank means a storage tank designed to operate at pressures greater than 3.5 kPa (gauge) to 100 kPa (gauge).
Lower explosive limit means the minimum concentration of vapour in air at which the propagation of flame occurs on contact with a source of ignition.
Major occupancy means the principal occupancy for which a building or part thereof is used or intended to be used, and includes the subsidiary occupancies that are an integral part of the principal occupancy.
Means of egress means a continuous path of travel provided for the escape of persons from any point in a building or contained open space to a separate building, an open public thoroughfare or an exterior open space protected from fire exposure from the building and having access to an open public thoroughfare. Means of egress includes both exits and access to exits.
Mercantile occupancy (Group ‘E’) means the occupancy or use of a building or part thereof for the displaying or selling of retail goods, wares or merchandise.
Noncombustible construction means that type of construction in which a degree of fire safety is attained by the use of noncombustible materials for structural members and other building assemblies.
Occupancy means the use or intended use of a building or part thereof for the shelter or support of persons, animals or property.
Occupant load means the number of persons for which a building or part thereof is designed.
Order means an order made under subsection 21(1) of the Fire Protection and Prevention Act.
Owner means any person, firm or corporation having control over any portion of the building or property under consideration and includes the persons in the building or property.
Oxidizing material means a material, other than ordinary atmospheres, that by itself is not necessarily combustible, but that may, generally by yielding oxygen, cause or contribute to the combustion of another material.
Partition means an interior wall 1 storey or part of a storey in height that is not load-bearing.
Pressure vessel means a storage tank that is designed to operate at pressures greater than 100 kPa (gauge).
Process plant means an industrial occupancy where materials, including flammable liquids, combustible liquids or Class 2 gases, are produced or used in a process.
Professional Engineer means a member or licensee of the Association of Professional Engineers of the Province of Ontario under the Professional Engineers Act.
Public corridor means a corridor that provides access to exit from more than 1 suite.
Rack means any combination of vertical, horizontal or diagonal members that support stored materials on solid or open shelves, including both fixed and portable units.
Rapid transit station means a building or part thereof used for the purpose of loading and unloading passengers of a rapid transit system but does not include open-air shelters at street level.
Refinery means any process plant in which flammable or combustible liquids are produced from crude petroleum, including areas on the same site where the resulting products are blended, packaged or stored on a commercial scale.
Residential occupancy (Group ‘C’) means the occupancy or use of a building or part thereof by persons for whom sleeping accommodation is provided but who are not harboured or detained to receive medical care or treatment or are not involuntarily detained.
Retrofit means the minimum performance requirements for life safety for existing buildings.
Self-service outlet means a fuel dispensing station, other than a marine fuel dispensing station, where the public handles the dispenser.
Service room means a room in a building used to contain equipment associated with building services.
Service space means space in a building used to facilitate or conceal the installation of building service facilities such as chutes, ducts, pipes, shafts or wires.
Smoke alarm means a combined smoke detector and audible alarm device that is designed to sound an alarm within the room or suite in which it is located when there is smoke within the room or suite.
Smoke detector means a fire detector designed to operate when the concentration of airborne combustion products exceeds a predetermined level.
Space heater means a space-heating appliance that heats the room or space within which it is located without the use of ducts.
Space-heating appliance means an appliance that supplies heat to a room or space directly or indirectly or to rooms or spaces of a building through a heating system.
Spraying area means the area that is within 6 m of a spray booth or spraying operation and that is not separated therefrom by a vapour-tight separation.
Spray booth means a power-ventilated structure that encloses or accommodates a spraying operation so that spray vapour and residue can be controlled and exhausted.
Spray room means a spraying area on a floor area or part thereof in which an open spraying operation is confined and that is separated from the remainder of the building in which it is located by a noncombustible vapour-tight separation.
Sprinklered (as applying to a building or part thereof) means that the building or part thereof is equipped with a system of automatic sprinklers.
Storage tank means a vessel for flammable or combustible liquids having a capacity of more than 230 L and designed to be installed in a fixed location.
Storey means that portion of a building that is situated between the top of any floor and the top of the floor next above it, and where there is no floor above it, that portion between the top of the floor and the ceiling above it.
Street means any highway, road, boulevard, square or other improved thoroughfare 9 m or more in width, that has been dedicated or deeded for public use, and is accessible to fire department vehicles and equipment.
Suite means a single room or series of rooms of complementary use, operated under a single tenancy, and includes dwelling units, individual guest rooms in motels, hotels, boarding houses, rooming houses and dormitories as well as individual stores and individual or complementary rooms for business and personal services occupancies.
Supervisory staff means those occupants of a building who have some delegated responsibility for the fire safety of other occupants under the fire safety plan and may include the fire department where the fire department agrees to accept these responsibilities.
Tank vehicles means any vehicle, other than railroad tank cars and boats, with a cargo tank having a capacity of more than 450 L, mounted or built as an integral part of the vehicle, and used for the transportation of flammable or combustible liquids and includes tank trucks, trailers and semi-trailers.
Tent means a shelter or structure with a covering that is made of pliable material.
Test means the operation of a device or system to ensure that it will perform in accordance with its intended operation or function.
Total area means the total area of all floors above and below grade, including mezzanines and penthouses, measured between the inside surfaces of exterior walls or between the inside surfaces of exterior walls and the inside surfaces of firewalls.
Travel distance means the distance from any point in a floor area to an exit measured along the path of exit travel, except that when floor areas are subdivided into rooms used singly or into suites of rooms and served by public corridors or exterior passageways, the distance shall be measured from the door of the rooms or suites to the nearest exit.
Unstable liquid means a liquid, including flammable and combustible liquids , which is chemically reactive to the extent that it will vigorously react or decompose at or near normal temperature and pressure conditions or which is chemically unstable when subject to impact.
Vapour pressure means the pressure exerted by a liquid as determined by ASTM D 323, “Vapor Pressure of Petroleum Products (Reid Method)”.
Vertical service space means a shaft oriented essentially vertically that is provided in a building to facilitate the installation of building services including mechanical, electrical and plumbing installations and facilities such as elevators, refuse chutes and linen chutes.
Viscosity means the resistance that a liquid offers to flow.
SECTION 1.3ABBREVIATIONS
Subsection 1.3.1.Abbreviations of Names of Associations
1.3.1.1. The abbreviations in this Code for the names of associations shall have the meanings assigned to them as follows.
ANSI |
American National Standards Institute |
API |
American Petroleum Institute |
ASME |
American Society of Mechanical Engineers |
ASTM |
American Society for Testing and Materials |
CAN |
Standards Council of Canada designation identifying a national standard. (The number or name following the CAN designation represents the agency under whose auspices the standard is issued. |
CAN1 designates CGA, | |
CAN2 designates CGSB, | |
CAN3 designates CSA, and | |
CAN4 designates ULC.) | |
CGA |
Canadian Gas Association |
CGSB |
Canadian General Standards Board |
CPPI |
Canadian Petroleum Products Institute |
CSA |
Canadian Standards Association |
NFPA |
National Fire Protection Association |
TC |
Transport Canada |
UL |
Underwriters Laboratories Inc. |
ULC |
Underwriters’ Laboratories of Canada |
Subsection 1.3.2.Abbreviations of Words and Phrases
1.3.2.1. The abbreviations of words and phrases in this Code shall have the meanings assigned to them as follows:
cm |
centimetre(s) |
cm/s |
centimetre(s) per second |
cm2 |
square centimetre(s) |
oC |
degree(s) Celsius |
cs |
centistoke(s) |
hr |
hour(s) |
in |
inch(es) |
kg |
kilogram(s) |
kN |
kilonewton(s) |
kPa |
kilopascal(s) |
L |
litre(s) |
L/min |
litre(s) per minute |
L/min/m2 |
litre(s) per minute per square metre |
lx |
Lux |
m |
Metre(s) |
m2 |
square metre(s) |
m3 |
cubic metre(s) |
m/s |
Metre(s) per second |
m/min |
Metre(s) per minute |
m3/hr |
cubic metre(s) per hour |
m3/min |
cubic metre(s) per minute |
min |
minute(s) |
mL |
millilitre(s) |
mm |
millimetre(s) |
mm2/s |
square millimetre(s) per second |
N |
newton(s) |
ppm |
part(s) per million |
s |
second(s) |
t |
Tonne(s) |
O. Reg. 388/97, Part 1; O. Reg. 428/98, s. 1; O. Reg. 475/00, ss. 1-3; O. Reg. 315/01, s. 1; O. Reg. 451/05, ss. 1, 2; O. Reg. 144/06, ss. 1-3.
PART 2
BUILDING AND OCCUPANT FIRE SAFETY
TABLE OF CONTENTS
SECTION 2.1 |
GENERAL |
Subsection 2.1.1. |
Scope and Application |
Subsection 2.1.2. |
Classification of Buildings or Parts of Buildings by Major Occupancy |
SECTION 2.2 |
FIRE SEPARATIONS |
Subsection 2.2.1. |
Major Occupancies |
Subsection 2.2.2. |
Rooms and Spaces |
Subsection 2.2.3. |
Closures |
SECTION 2.3 |
INTERIOR FURNISHING, FURNISHING AND DECORATIVE MATERIALS |
Subsection 2.3.1. |
General |
Subsection 2.3.2. |
Textile Flammability |
SECTION 2.4 |
FIRE HAZARDS |
Subsection 2.4.1. |
Combustible Materials |
Subsection 2.4.2. |
Exposure to Combustible Materials |
Subsection 2.4.3. |
Smoking |
Subsection 2.4.4. |
Open Flames |
Subsection 2.4.5. |
Use of Hazardous Materials |
Subsection 2.4.6. |
Electrical Hazards |
Subsection 2.4.7. |
Vacant Buildings |
SECTION 2.5 |
FIRE DEPARTMENT ACCESS TO BUILDINGS |
Subsection 2.5.1. |
General |
SECTION 2.6 |
SERVICE EQUIPMENT |
Subsection 2.6.1. |
Heating, Ventilating and Air-Conditioning |
Subsection 2.6.2. |
Solid-Fuel Burning Appliances |
Subsection 2.6.3. |
Incinerators |
Subsection 2.6.4. |
Electrical Equipment Vaults |
SECTION 2.7 |
SAFETY TO LIFE |
Subsection 2.7.1. |
Means of Egress |
Subsection 2.7.2. |
Door Hardware |
Subsection 2.7.3. |
Exit Lighting and Emergency Lighting |
SECTION 2.8 |
EMERGENCY PLANNING |
Subsection 2.8.1. |
General |
Subsection 2.8.2. |
Fire Safety Plan |
Subsection 2.8.3. |
Fire Drills |
SECTION 2.9 |
TENTS AND AIR-SUPPORTED STRUCTURES |
Subsection 2.9.1. |
General |
Subsection 2.9.2. |
Materials |
Subsection 2.9.3. |
Fire Hazards and Control |
SECTION 2.10 |
DAY-CARE CENTRES |
Subsection 2.10.1. |
Combustible Materials |
SECTION 2.11 |
INSULATION AND RE-INSULATION |
Subsection 2.11.1. |
General |
SECTION 2.12 |
COVERED MALLS |
Subsection 2.12.1. |
General |
SECTION 2.13 |
INSTALLATION OF SMOKE ALARMS |
Subsection 2.13.1. |
Scope |
Subsection 2.13.2. |
Installation |
SECTION 2.14 |
RESERVED |
SECTION 2.15 |
PORTABLE OXYGEN SYSTEMS |
Subsection 2.15.1. |
General |
SECTION 2.1GENERAL
Subsection 2.1.1.Scope and Application
Scope
2.1.1.1. This Part provides for the safety of the occupants in buildings, through the elimination or control of fire hazards in and around buildings, the maintenance of certain life safety systems in buildings, for the establishing of a fire safety plan in those buildings where required and the installation of smoke alarms in dwelling units.
Application
2.1.1.2. (1) This Part applies to all buildings.
(2) This Part does not apply to individual dwelling units.
2.1.1.3. (1) Despite Sentence 2.1.1.2.(2), Section 2.2 (Fire Separations), Subsection 2.4.7. (Vacant Buildings), Section 2.6 (Service Equipment), Section 2.11 (Insulation and Re-Insulation), Section 2.13 (Installation of Smoke Alarms) and Section 2.15 (Portable Oxygen Systems) apply to individual dwelling units.
(2) Despite Sentence 2.1.1.2.(2), this Part applies to facilities regulated by or under the Developmental Services Act.
Subsection 2.1.2.Classification of Buildings or Parts of Buildings by Major Occupancy
Classification of buildings or parts thereof
2.1.2.1. For the purpose of applying this Code, a building or part thereof shall be classified according to its major occupancy by the Chief Fire Official in conformance with the Building Code.
Hazardous activities
2.1.2.2. Activities that create a hazard and that are not allowed for in the original design shall not be carried out in a building unless approved provisions are made to control the hazard.
Prohibited combinations of occupancies
2.1.2.3. No major occupancy of Group ‘F’ Division 1 shall be contained within a building with any occupancy classified as Group ‘A’, ‘B’ or ‘C’.
SECTION 2.2FIRE SEPARATIONS
Subsection 2.2.1.Major Occupancies
Damaged fire separations
2.2.1.1. Where fire separations between major occupancies are damaged in a manner so as to affect the integrity of their fire-resistance rating, such damaged fire separations shall be repaired so that the integrity of the fire separations is maintained.
Subsection 2.2.2.Rooms and Spaces
Damaged fire separations
2.2.2.1. Where fire separations between rooms, corridors, shafts and other spaces are damaged so as to affect the integrity of their fire-resistance rating, the damaged fire separations shall be repaired so that the integrity of the fire separations is maintained.
Subsection 2.2.3.Closures
Damaged closures
2.2.3.1. Where closures are damaged so as to affect the integrity of their fire-protection rating, the damaged closures shall be repaired so that the integrity of the closures is maintained.
Maintenance of closures
2.2.3.2. (1) Closures in fire separations shall be maintained to ensure that they are operable at all times by
(a) keeping fusible links and heat or smoke actuated devices undamaged and free of paint and dirt,
(b) keeping guides, bearings and stay rolls clean and lubricated,
(c) making necessary adjustments and repairs to door hardware and accessories to ensure proper closing and latching, and
(d) repairing or replacing inoperative parts of hold-open devices and automatic releasing devices.
2.2.3.3. Closures in fire separations shall not be blocked or wedged open.
Inspection of doors in fire separations
2.2.3.4. Doors in fire separations shall be inspected monthly.
2.2.3.5. (1) Doors in fire separations in occupied buildings shall be checked as frequently as necessary to ensure that they remain closed.
(2) Sentence (1) does not apply to
(a) doors designed to close automatically in the event of a fire, or
(b) doors for which an approved fire safety plan contains provisions for closing in the event of a fire.
2.2.3.6. RESERVED
Inspection of fire dampers and fire-stop flaps
2.2.3.7. Fire dampers and fire-stop flaps shall be inspected annually, or on an approved time schedule.
2.2.3.8. Door openings and the surrounding areas shall be kept clear of everything that would be likely to obstruct or interfere with the free operation of the door.
SECTION 2.3INTERIOR FINISHING, FURNISHING AND DECORATIVE MATERIALS
Subsection 2.3.1.General
2.3.1.1. (1) Where a building is refurbished or redecorated, interior finish materials used shall be in conformance with the Building Code.
(2) Despite Sentence (1), other interior finish materials may be approved.
Moveable partitions and screens
2.3.1.2. Moveable partitions or screens, including acoustical screens, shall have a flame-spread rating equal to that required for the interior finish of the area in which they are located as determined in the Building Code.
Subsection 2.3.2.Textile Flammability
Flame resistance of textiles
2.3.2.1. (1) Drapes, curtains and other decorative materials, including textiles and films used in buildings, shall meet the requirements for a high degree of flame resistance as described in NOTE 4 of Test Method 27.1 of CAN2-4.2, “Textile Test Methods”, when such drapes, curtains and other decorative materials are used in
(a) any Group ‘B’ occupancy,
(b) any lobby or exit,
(c) any access to exit in a Group ‘A’ occupancy, and assembly occupancies with an occupant load of more than 100 persons, or
(d) any open floor area in a Group ‘D’, ‘E’ or ‘F’ occupancy exceeding 1500 m2, except when the floor area is divided into fire compartments not exceeding 1500 m2 in area and separated from the remainder of the floor area by a fire separation having a 1-hr fire-resistance rating.
Flameproofing treatments
2.3.2.2. Flameproofing treatments shall be renewed as often as required to ensure that the material will pass the match flame test in NFPA 701, “Standard Methods of Fire Tests for Flame-Resistant Textiles and Films”.
SECTION 2.4FIRE HAZARDS
Subsection 2.4.1.Combustible Materials
Accumulation of combustible materials
2.4.1.1. (1) Combustible materials shall not be permitted in quantities or locations that may constitute a fire hazard.
(2) Sentence (1) does not apply to combustible materials
(a) stored in compliance with this Code, or
(b) stored in compliance with the Building Code.
2.4.1.2. (1) Combustible materials, other than those for which the location, room or space is designed, shall not be permitted in any part of an elevator shaft, ventilation shaft or means of egress.
(2) Despite Sentence (1), corridors serving as access to exits for guest suites may contain solid wood or other approved furniture, provided the furniture does not create an obstruction to the egress route.
2.4.1.3. No combustible materials, other than those for which the room or space is designed, shall be permitted in any service room or service space.
2.4.1.4. Except for building components, no combustible materials shall be permitted in horizontal concealed spaces, such as crawl spaces and ceiling spaces.
Flammable or combustible liquid spills
2.4.1.5. Flammable or combustible liquid spills in a building shall be removed immediately with an absorbent material that will not increase the hazard and shall be disposed of in a safe manner.
Precautions against spontaneous combustion
2.4.1.6. Greasy or oily rags or materials subject to spontaneous heating shall be deposited in a receptacle that conforms to Article 2.4.1.9. or removed from the premises.
Lint traps
2.4.1.7. Lint traps in laundry equipment shall be cleaned to prevent the accumulation of lint that creates an undue fire hazard.
Ashes
2.4.1.8. (1) Ashes shall be stored in receptacles that conform to Article 2.4.1.9.
(2) Combustible materials shall not be stored with ashes in the same receptacle.
Receptacles
2.4.1.9. Receptacles required by Clause 2.4.1.1.(2)(c) and Articles 2.4.1.6. and 2.4.1.8. shall be constructed of noncombustible materials with a melting point of not less than 650oC, shall have no openings in the sides or bottom, and shall have a self-closing, tightly fitted cover.
2.4.1.10. Receptacles as described in Article 2.4.1.9. shall not be placed closer than 1 m on the sides and top to combustible materials, and if placed on a combustible floor surface, shall be equipped with a flanged bottom or legs at least 50 mm high.
2.4.1.11. (1) Waste containers in public washrooms and in other public areas in a hotel establishment shall be
(a) approved, or
(b) constructed of noncombustible material and have self-closing covers.
Subsection 2.4.2.Exposure to Combustible Materials
2.4.2.1. Combustible materials shall not be stored on a roof or adjacent to any building so as to create a fire hazard to the building or its occupants.
Subsection 2.4.3.Smoking
Smoking prohibited
2.4.3.1. (1) Where conditions are such as to make smoking a fire or explosion hazard, smoking shall be permitted only in specifically approved smoking areas.
(2) In facilities regulated by or under the Developmental Services Act, suitable noncombustible ashtrays shall be provided where smoking is permitted.
Signs
2.4.3.2. The areas where smoking is not permitted shall be identified by signs having black lettering 50 mm high with a 12.5 mm stroke on a yellow background, except that symbols of 150 mm by 150 mm may be used in lieu of lettering, or covered by instructions established under a fire safety plan and available to all persons.
Subsection 2.4.4.Open Flames
Open flames prohibited
2.4.4.1. (1) Open flames shall not be permitted in buildings used for public assemblies in such quantities and in such a manner as to create a fire hazard unless approved.
(2) Open flames shall not be permitted in dining areas in Group ‘B’ Division 2 occupancies.
(3) Despite Sentence (1), decorative and lighting devices with open flames shall not be used unless they are
(a) securely supported in noncombustible holders and located and protected so that combustible materials will not come into contact with or be ignited by the flame, or
(b) approved.
2.4.4.2. (1) Flaming meals or drinks shall not be served in Group ‘B’ Division 2 occupancies.
(2) Flaming meals or drinks shall be ignited only at the location of serving in places of public assembly.
Portable extinguishers
(3) A 2A:5BC or higher rated portable extinguisher, conforming to the requirements of Section 6.2, shall be available where refueling of appliances and containers used for flaming meals or drinks takes place.
(4) Refueling of appliances shall not be carried out in the dining area.
Portable extinguishers for flaming meals and drinks
2.4.4.3. A 2A:5BC or higher rated portable extinguisher, conforming to the requirements of Section 6.2, shall be located on the serving cart or table where flaming meals and drinks are being served.
Devices having open flames
2.4.4.4. Devices having open flames shall be securely supported in noncombustible holders and located or protected so as to prevent accidental contact of the flame with combustible materials.
Subsection 2.4.5.Use of Hazardous Materials
2.4.5.1. Flammable liquids shall not be used for cleaning purposes except where the cleaning is an essential part of a process.
2.4.5.2. Flammable gases shall not be used to inflate balloons.
Subsection 2.4.6.Electrical Hazards
Electrical wiring
2.4.6.1. Temporary electrical wiring shall not be used where it presents a fire hazard.
Subsection 2.4.7.Vacant Buildings
2.4.7.1. Vacant buildings shall be secured against unauthorized entry.
SECTION 2.5FIRE DEPARTMENT ACCESS TO BUILDINGS
Subsection 2.5.1.General
Application
2.5.1.1. (1) This Section applies to fire access routes
(a) required to be constructed under the Building Code,
(b) required by municipal by-law, or
(c) required by this Code.
Maintaining access free of obstructions
2.5.1.2. (1) Fire access routes and access panels or windows provided to facilitate access for fire fighting operations shall not be obstructed by vehicles, gates, fences, building materials, vegetation, signs or any other form of obstruction.
Fire department connections
(2) Fire department sprinkler and standpipe connections shall be clearly identified and maintained free of obstructions for use at all times.
Maintenance
2.5.1.3. Fire access routes shall be maintained so as to be immediately ready for use at all times by fire department vehicles.
Signs
2.5.1.4. Approved signs shall be displayed to indicate fire access routes.
SECTION 2.6SERVICE EQUIPMENT
Subsection 2.6.1.Heating, Ventilating and Air-Conditioning
Defective equipment
2.6.1.1. Defective appliances in a building shall be removed, repaired or replaced when the defective appliances create a hazardous condition.
Solid fuel bins
2.6.1.2. Bins containing solid fuel shall be located at least 1.2 m from any appliance.
Hoods, filters and ducts
2.6.1.3. (1) Hoods, filters and ducts that are subject to accumulations of combustible deposits shall be checked weekly.
(2) Hoods, filters and ducts that are subject to accumulations of combustible deposits shall be cleaned when the deposits create a fire hazard.
Chimneys, flues and flue pipes
2.6.1.4. (1) Chimneys, flues and flue pipes shall be inspected
(a) annually,
(b) when any appliance is added to it, and
(c) after any chimney fire.
(2) Chimneys, flues and flue pipes shall be repaired or replaced to eliminate any structural deficiency (such as absence of a liner) or any decay (such as cracking, settling, crumbling mortar, distortion, advanced corrosion, separation of sections or loose or broken supports).
(3) Chimneys, flues and flue pipes that constitute a fire hazard shall be repaired or replaced in accordance with the Building Code.
2.6.1.5. Chimneys, flues and flue pipes shall be cleaned as often as necessary to keep them free from accumulations of combustible deposits.
Abandoned flue openings
2.6.1.6. Abandoned or unused flue openings shall be sealed in a manner that prevents the passage of fire or smoke.
Operation of systems
2.6.1.7. Heating, ventilating and air-conditioning systems, including appliances, chimneys and flue pipes, shall be operated and maintained so as not to create a hazardous condition.
Disconnect switches
2.6.1.8. Except for self-contained systems within guest suites and dwelling units, disconnect switches for mechanical air-conditioning and ventilating systems shall be operated annually to establish that the system can be shut down.
Ventilation shafts
2.6.1.9. Ventilation shafts shall be used only for ventilating purposes.
Precautions during repairs or renovations
2.6.1.10. Work on ducts involving the use of heat producing devices for cutting, welding or soldering shall not be undertaken before the system has been shut down, the duct cleaned of any accumulations of combustible deposits and any combustible lining and covering material that could be ignited by such work has been removed.
2.6.1.11. Precautions shall be taken, where necessary, to ensure that there is no damage to fuel supply piping or equipment that would result in fuel leakage or a fire hazard during renovations or excavations.
Commercial cooking equipment
2.6.1.12. (1) Commercial cooking equipment shall be provided with exhaust and fire protection systems in conformance with NFPA 96, “Ventilation Control and Fire Protection of Commercial Cooking Operations”.
(2) Despite Sentence (1), existing exhaust or fire protection systems may be approved.
(3) In a hotel establishment regulated by Section 9.9, commercial cooking equipment that complies with Article 9.9.2.19. shall be deemed to be in compliance with Sentence (1).
2.6.1.13. Commercial cooking equipment exhaust and fire protection systems shall be maintained in conformance with NFPA 96, “Ventilation Control and Fire Protection of Commercial Cooking Operations”.
2.6.1.14. (1) Instructions for manually operating the fire extinguishing systems required under Article 2.6.1.12. shall be posted conspicuously in the kitchen areas.
(2) The instructions required in Sentence (1) shall be included in the fire safety plan where such a plan is required.
Subsection 2.6.2Solid-Fuel Burning Appliances
Solid-fuel burning appliances
2.6.2.1. The installation of solid-fuel burning appliances and equipment shall be in accordance with CAN/CSA-B365, “Installation Code for Solid-Fuel-Burning Appliances and Equipment”.
2.6.2.2. Solid-fuel burning appliances and equipment shall be maintained in accordance with CAN/CSA-B365, “Installation Code for Solid-Fuel-Burning Appliances and Equipment”.
Subsection 2.6.3.Incinerators
Design, construction, installation and alteration
2.6.3.1. (1) The design, construction, installation and alteration of indoor incinerators shall conform to the requirements of the Building Code.
(2) The design, construction, installation and alteration of outdoor incinerators shall conform to NFPA 82, “Incinerators and Waste and Linen Handling Systems and Equipment”, except that the flue venting an incinerator shall not also serve as the chute conveying waste material to the incinerator.
Maintenance
2.6.3.2. All indoor and outdoor incinerators shall be maintained in accordance with NFPA 82, “Incinerators and Waste and Linen Handling Systems and Equipment”.
Spark arresters
2.6.3.3. (1) Spark arresters shall be cleaned annually or more frequently where accumulations of debris will adversely affect operations.
(2) Burnt-out spark arresters shall be repaired or replaced.
Open air burning
2.6.3.4. Open air burning shall not be permitted unless approved, or unless such burning consists of a small, confined fire, supervised at all times, and used to cook food on a grill or a barbecue.
Subsection 2.6.4.Electrical Equipment Vaults
2.6.4.1. Electrical equipment vaults shall not be used for storage purposes.
2.6.4.2. Electrical equipment vaults shall be kept locked to prevent unauthorized access.
SECTION 2.7SAFETY TO LIFE
Subsection 2.7.1.Means of Egress
Group ‘D’ and ‘E’ occupancies
2.7.1.1. Individual work areas in Group ‘D’ and ‘E’ occupancies shall be located adjacent to aisles described in Articles 2.7.1.2. and 2.7.1.3.
2.7.1.2. Where 2 exits are required from floor areas in buildings of Group ‘D’ and ‘E’ occupancy that are not subdivided into rooms or suites of rooms served by corridors giving access to exits, at least 1 aisle with access to the 2 exits and having a minimum clear width of 1100 mm shall be provided to serve the individual work areas where necessary.
2.7.1.3. Subsidiary aisles with a minimum clear width of 900 mm may branch off for a distance not exceeding 7.5 m from the aisles described in Article 2.7.1.2.
Occupant load
2.7.1.4. (1) The number of persons occupying a room or floor space in an assembly occupancy shall not exceed the occupant load for the intended use as determined in Sentence (2).
(2) The occupant load for any room or floor space shall be the lower of
(a) the occupant load as calculated in accordance with Sentences (3) to (7), or
(b) the occupant load for which means of egress are provided as determined by the Building Code.
(3) The occupant load of a floor area or part of a floor area in an assembly occupancy shall be based on
(a) the number of fixed seats, or
(b) the number of persons
(i) for which the area is designed, or
(ii) determined from Table 2.7.1.A. for occupancies other than those described in Clause (a).
(4) For the purposes of this Article, mezzanines, tiers and balconies shall be regarded as part of the floor area.
(5) Where fixed bench-type seats without arms are provided, the occupant load shall be based on a seat width of 450 mm per person.
(6) The occupant load of a room in which a dance floor is situated shall be based on that portion of the room that is not occupied by the dance floor except where the occupant load is determined using Subclause (3)(b)(i).
(7) At no time shall the maximum occupant load determined in Sentences (2) to (6) exceed the occupant load calculated on the basis of
(a) 0.60 m2 of floor space per person in dining, alcoholic beverage and cafeteria space, and
(b) 0.40 m2 of floor space per person for all other uses.
TABLE 2.7.1.A.
Forming Part of Article 2.7.1.4.
Type of Use of Building or Floor Area |
Area per Person m2 |
ASSEMBLY USES: |
|
Space with fixed seats |
See Clause (3) (a) |
Space with nonfixed seats |
0.75 |
Stages for theatrical performances |
0.75 |
Space with nonfixed seats and tables |
0.95 |
Standing space |
0.40 |
Stadia and grandstands |
0.60 |
Bowling alleys, pool and billiard rooms |
9.30 |
Classrooms |
1.85 |
School shops and vocational rooms |
9.30 |
Reading or writing rooms or lounges |
1.85 |
Dining, alcoholic beverage and cafeteria space |
1.10 |
Laboratories in schools |
4.60 |
Exhibition halls other than those classified in Group E |
2.80 |
Posting occupant load
2.7.1.5. (1) When the occupant load as determined in Article 2.7.1.4. is more than 60 persons, the occupant load shall be posted in a conspicuous location.
(2) When the occupant load has been determined using Subclause 2.7.1.4.(3)(b)(i), a permanent sign indicating the occupant load shall be posted in a conspicuous location.
Nonfixed seating
2.7.1.6. (1) Nonfixed row seating in an assembly occupancy shall be arranged as described in Sentences (2) to (6).
(2) Aisles leading to exits shall be provided so that there are not more than 7 seats between any seat and the nearest aisle.
(3) The minimum clear width of aisles shall be at least 1100 mm, except as permitted by Sentence (4).
(4) Aisles required in Sentence (3) may be reduced in width to 750 mm when serving 60 seats or less, or 900 mm when serving seats on one side only.
(5) Aisles shall terminate in a cross aisle, foyer or exit and the width of such cross aisle, foyer or exit shall be at least the required width of the widest aisle plus 50 per cent of the total required width of the remaining aisles that it serves.
(6) The distance of travel to an exit door by an aisle shall not be greater than 30 m.
(7) Where the occupant load exceeds 200 persons in an assembly occupancy containing nonfixed seating, the seats shall be fastened in units of not less than 4 nor more than 12 seats, or each end seat abutting an aisle shall be securely fastened to the floor.
(8) Seats may be arranged in a manner that does not meet the requirements of Sentence (7) where the aisle widths are increased by 50 per cent above the requirements set out in Sentences (2) to (6), and where the maximum occupant load of the space is based on not less than 1.2 m2 of floor space per person.
Obstructions
2.7.1.7. (1) Access to exits, including corridors used by the public and exits, including outside areas, shall be maintained free of obstructions.
Lighting
(2) Lighting provided for illumination in exits and access to exits, including corridors used by the public, shall be maintained.
Fire escapes
2.7.1.8. (1) Exterior passageways, exterior stairways and fire escapes in occupied buildings shall be maintained in good repair and operational and kept free of snow and ice accumulations.
(2) Where equipment is provided to melt snow or ice on exterior passageways, exterior stairways and fire escapes in an occupied building, the equipment shall be maintained in working order or alternative measures shall be taken as specified in Sentence (1).
Turnstiles and checkout counters
2.7.1.9. (1) Except as provided in Sentences (2) and (3), turnstiles, checkout counters, railings or barriers shall not obstruct the exits or access to exits from any room, floor area or storey.
(2) Checkout counters or control posts in retail outlets may be used within access to exits if there is a clear width of at least 450 mm up to a height of 914 mm.
(3) If the checkout counters or control posts exceed 914 mm in height, there shall be a clear width of at least 550 mm.
(4) The clear width may be less than that required by Sentences (2) and (3) if an alternative means of egress is adjacent to and plainly visible from the restricted egress.
(5) Wheeled carts shall be stored after use so as not to obstruct access to exits in retail outlets where wheeled carts are used by customers.
(6) Despite Sentences (1) to (5), the aggregate width of exits and access to exits shall be provided.
Subsection 2.7.2.Door Hardware
Door release hardware
2.7.2.1. (1) Every exit door shall be designed and installed so that, when the latch is released, the door will open in the direction of exit travel under a force of not more than 90 N, applied at the knob or other latch releasing device.
(2) Approved hardware designed to release the latch and allow the door to open in the direction of exit travel when a force of not more than 90 N is applied to the hardware is required on
(a) every door in an access to exit from a room or suite of Group ‘A’ occupancy having an occupant load of more than 100 persons,
(b) every exit door from a floor area containing a Group ‘A’ occupancy having an occupant load of more than 100 persons,
(c) every door leading to an exit lobby from an exit stair shaft in buildings having an occupant load of more than 100 persons,
(d) every exterior door leading from an exit stair shaft in buildings having an occupant load of more than 100 persons, and
(e) every exit door from a floor area containing a Group ‘F’ Division 1 occupancy.
(3) Every door that opens into a corridor or other facility providing access to exit from a suite or room not located within a suite shall swing
(a) on its vertical axis, and
(b) in the direction of exit travel where the room or suite is used or intended to be used for an occupant load of more than 60 persons or is designed for a Group ‘F’ Division 1 occupancy.
(4) Sentences (1) and (3) do not apply if the existing door is approved and either does not endanger life safety or is modified to provide life safety.
(5) Sentences (1), (2) and (3) do not apply in rapid transit stations which comply with the Building Code.
2.7.2.2. (1) Except as permitted in Sentences (2) and (3), locking, latching and other fastening devices on
(a) every required exit door, and
(b) every door that opens into or is located within
(i) a public corridor,
(ii) a facility that provides access to exit from a suite, or
(iii) a facility that provides access to exit from a room serving patients or residents in an institutional occupancy
shall be such that the door can be readily opened to permit egress without requiring keys, special devices or specialized knowledge of the door opening mechanism.
(2) Except for a door in an elementary or secondary school or a door leading directly from a Group ‘F’ Division 1 occupancy, a door in an access to exit or an exit door may be equipped with an electromagnetic locking device that is approved or complies with the Building Code.
(3) An egress door that serves a contained use area or impeded egress zone may be equipped with a locking device that can be released either locally or remotely provided
(a) local locking devices are operable by a key from both sides of the door,
(b) controls for the remote release of the door locking devices are located in an area readily available to security personnel, and
(c) electrical release devices are designed to operate on emergency power and are also manually operated by security personnel.
(4) Sentence (1) does not apply in rapid transit stations that comply with Section 3.12 of the Building Code.
Subsection 2.7.3.Exit Lighting and Emergency Lighting
Exit signs
2.7.3.1. Required exit signs shall be clearly visible and maintained in a clean and legible condition.
2.7.3.2. Exit signs shall be illuminated, externally or internally, as appropriate for each sign’s design, while the building is occupied.
Emergency lighting
2.7.3.3. (1) Pilot lights on emergency lighting unit equipment shall be checked monthly for operation.
(2) Emergency lighting unit equipment shall be inspected monthly to ensure that
(a) the terminal connections are clean, free of corrosion and lubricated when necessary,
(b) the terminal clamps are clean and tight as per manufacturer’s specifications,
(c) the electrolyte level and specific gravity are maintained as per manufacturer’s specifications, and
(d) the battery surface is kept clean and dry.
(3) Emergency lighting unit equipment shall be tested
(a) monthly to ensure that the emergency lights will function upon failure of the primary power supply, and
(b) annually to ensure that the unit will provide emergency lighting for a duration equal to the design criteria under simulated power failure conditions.
(4) After completion of the test required in Clause (3)(b), the charging conditions for voltage and current and the recovery period shall be tested to ensure that the charging system is in accordance with the manufacturer’s specifications.
SECTION 2.8EMERGENCY PLANNING
Subsection 2.8.1.General
Application
2.8.1.1. (1) The requirements of this Section shall apply to buildings containing a
(a) Group ‘A’ or ‘B’ occupancy,
(b) Group ‘C’ occupancy where the occupant load exceeds 10,
(c) Group ‘D’ occupancy where the occupant load exceeds 300,
(d) Group ‘E’ occupancy where the occupant load exceeds 300,
(e) Group ‘F’ Division 1 occupancy where the occupant load exceeds 25,
(f) Group ‘F’ Division 2 occupancy where the occupant load exceeds 100, or
(g) Group ‘F’ Division 3 occupancy where the occupant load exceeds 300.
(2) Despite Sentence (1), the requirements of this Section shall apply to buildings or premises
(a) containing 4 storeys or more, including storeys below grade,
(b) subject to the provisions of Subsection 3.5.3.,
(c) subject to the provisions of Article 4.1.5.6.,
(d) subject to the provisions of Article 4.12.4.1.,
(e) regulated by Section 9.3 (Boarding, Lodging and Rooming Houses),
(f) subject to the provisions of Sentence 9.5.3.1.(3), or
(g) used as a convalescent home or children’s custodial home providing sleeping accommodation for more than 3 persons.
(3) Despite Sentence (1), the requirements of this Section apply to recreational camps regulated under the Health Protection and Promotion Act.
(4) Despite Sentence (1), the requirements of this Section apply to facilities regulated by or under the Developmental Services Act.
Instructions in emergency procedures
2.8.1.2. (1) Supervisory staff shall be instructed in the fire emergency procedures as described in the fire safety plan before they are given any responsibility for fire safety.
(2) Supervisory staff shall be available on notification of a fire emergency to fulfil their obligation as described in the fire safety plan.
(3) It is not necessary that supervisory staff be in the building on a continual basis.
2.8.1.3. (1) Employees in a hotel establishment shall be instructed on
(a) the procedures outlined in Article 2.8.2.1., and
(b) the use of fire fighting equipment, including portable fire extinguishers and, where applicable, standpipe and hose systems.
Subsection 2.8.2Fire Safety Plan
Measures in a fire safety plan
2.8.2.1. (1) A fire safety plan shall include
(a) the emergency procedures to be used in case of fire including sounding the fire alarm, notifying the fire department, provisions for access for fire fighting, instructing occupants on procedures to be followed when the fire alarm sounds, evacuating endangered occupants and confining, controlling and extinguishing the fire,
(b) the appointment and organization of designated supervisory staff to carry out fire safety duties,
(c) the instruction of supervisory staff and other occupants so that they are aware of their responsibilities for fire safety,
(d) the holding of fire drills including the emergency procedures appropriate to the building,
(e) the control of fire hazards in the building,
(f) the maintenance of building facilities provided for the safety of occupants,
(g) the provision of alternative measures for the safety of occupants during any shutdown of fire protection equipment and systems or part thereof, and
(h) instructions, including schematic diagrams, describing the type, location and operation of building fire emergency systems.
(2) The fire safety plan shall be prepared, approved and implemented in buildings regulated by Article 2.8.1.1.
(3) The fire safety plan shall be kept in the building in an approved location.
Institutional occupancies and hotels
2.8.2.2. (1) There shall be sufficient supervisory staff available in institutional occupancies to carry out the duties as required in the fire safety plan.
(2) In hotel establishments
(a) there shall be sufficient supervisory staff available to carry out the duties as required in the fire safety plan, and
(b) in buildings greater than three storeys in building height or having a total area greater than 4000 m2, supervisory staff shall be on duty whenever the building is occupied.
High buildings
2.8.2.3. (1) The fire safety plan in buildings within the scope of Subsection 3.2.6. of the Building Code shall, in addition to the requirements of Sentence 2.8.2.1.(1), include
(a) the instruction of supervisory staff on the use of the voice communication system,
(b) the procedures for use of elevators and for evacuation of persons in need of assistance,
(c) the action to be taken by supervisory staff in initiating any smoke control or other fire emergency systems installed in a building in the event of fire until the fire department arrives,
(d) the procedures established to facilitate fire department access to the building and fire location within the building, and
(e) the instructions for the supervisory staff and fire department for the operation of the fire emergency systems.
2.8.2.4. A copy of the fire emergency procedures and other duties for supervisory staff as laid down in the fire safety plan shall be given to all supervisory staff.
Posting fire emergency procedures
2.8.2.5. (1) At least one copy of the fire emergency procedures shall be prominently posted and maintained on each floor area.
(2) In addition to Sentence (1), in a hotel establishment
(a) one copy of the approved fire safety plan shall be posted in the main reception area, and
(b) a copy of the emergency procedures, location of exits and the fire safety rules shall be posted on the inside of the egress doors of each guest suite.
Subsection 2.8.3.Fire Drills
Procedures
2.8.3.1. (1) The procedure for conducting fire drills described in Clause 2.8.2.1.(1)(d) shall be included in the fire safety plan, taking into consideration
(a) the building occupancy and its fire hazards,
(b) the safety features provided in the building,
(c) the desirable degree of participation of occupants other than supervisory staff,
(d) the number and degree of experience of participating supervisory staff, and
(e) the testing and operation of the emergency systems installed in buildings within the scope of Subsection 3.2.6. of the Building Code.
(2) The fire drill procedures required in Sentence (1) shall be prepared in consultation with the Chief Fire Official.
Frequency
2.8.3.2. (1) Fire drills as described in Sentence 2.8.3.1.(1) shall be held at least once during each 12-month period for the supervisory staff, except that
(a) in day-care centres, facilities regulated by or under the Developmental Services Act and Group ‘B’ occupancies, fire drills shall be held at least monthly,
(b) in schools attended by children, total evacuation fire drills shall be held three times in each of the fall and spring school terms, and
(c) in buildings within the scope of Subsection 3.2.6. of the Building Code, fire drills shall be held every three months.
(2) In addition to the requirements of Sentence (1), every employee in a hotel establishment shall take part in at least one fire drill during each 12-month period.
(3) Records of a fire drill required by this Article shall be kept for 12 months after the fire drill.
SECTION 2.9TENTS AND AIR-SUPPORTED STRUCTURES
Subsection 2.9.1.General
2.9.1.1. Tents and air-supported structures shall be in conformance with the Building Code.
2.9.1.2. This Section does not apply to tents that are used for camping, personal or other non-commercial uses, each having an area of 30 m2 or less.
Subsection 2.9.2.Materials
Flameproofing treatments
2.9.2.1. Flameproofing treatments shall be renewed as often as necessary to ensure that the material will pass the match flame test in NFPA 701, “Standard Methods of Fire Tests for Flame-Resistant Textiles and Films”.
Subsection 2.9.3.Fire Hazards and Control
Combustible materials
2.9.3.1. Hay, straw, shavings or similar combustible materials other than that necessary for the daily feeding and care of animals shall not be permitted within a tent or air-supported structure used for an assembly occupancy, except that sawdust and shavings may be used if kept damp.
Smoking and open flames
2.9.3.2. Smoking and open flame devices shall not be permitted in a tent or air-supported structure unless provisions have been made for such activities under the fire safety plan.
Fire alarm system or firewatch
2.9.3.3. (1) Despite Article 2.9.1.1., if a tent or air-supported structure does not have a fire alarm system that conforms to the Building Code,
(a) it may have an approved fire alarm system that does not conform to the Building Code where the reliability and performance of the system will provide an adequate early warning level, or
(b) a person shall be employed for firewatch duty.
2.9.3.4. (1) A person employed for firewatch duty in accordance with Article 2.9.3.3. shall
(a) be familiarized with all fire safety features, including the fire safety plan as provided in conformance with Section 2.8 and the condition of exits, and
(b) patrol the area to ensure that the means of egress are kept clear and that regulations are enforced.
Communications systems
2.9.3.5. When the conditions of Article 2.9.3.3. apply, an approved communications system shall be provided.
SECTION 2.10DAY-CARE CENTRES
Subsection 2.10.1.Combustible Materials
2.10.1.1. Combustible artwork and teaching materials that are attached to walls shall not exceed 20 per cent of the area of the walls.
Waste receptacles
2.10.1.2. Waste receptacles shall be made of noncombustible materials.
Flammable and combustible liquids
2.10.1.3. Flammable and combustible liquids shall be stored in conformance with Part 4 and in areas inaccessible to children.
2.10.1.4. Where children with disabilities are cared for, sufficient staff shall be present at all times during the period the children are in the centre to escort them to safety in the event of a fire emergency.
SECTION 2.11INSULATION AND RE-INSULATION
Subsection 2.11.1.General
2.11.1.1. The installation of insulation, including the replacement of insulation, shall be carried out in accordance with the Building Code.
2.11.1.2. Unless otherwise approved, combustible insulation shall be protected as prescribed in the Building Code.
2.11.1.3. Insulation shall not be placed in building roof-ceiling or floor-ceiling assemblies, as described in Parts 3 and 9 of the Building Code, where the assemblies are required to have a fire-resistance rating unless the insulation does not reduce the fire-resistance rating of the assemblies.
SECTION 2.12COVERED MALLS
Subsection 2.12.1.General
2.12.1.1. (1) Covered malls designed for ornamental and pedestrian oriented uses only shall not be used for merchandising or public activities, except that such activities may be permitted on a temporary basis where they do not create a fire hazard.
(2) Where a covered mall described in Sentence (1) is used for merchandising or public activities, the fire safety plan described in Section 2.8 shall include additional provisions to offset any hazard that may be created by such activities.
2.12.1.2. Merchandising or public activities in a sprinklered covered mall described in Article 2.12.1.1. shall not be permitted where such activities will exceed the performance criteria for which the sprinkler system was designed.
2.12.1.3. (1) When a covered mall having a width of 9 m or more has been provided for the purpose of considering each portion of the building separated by the mall as a separate building, no merchandising or public activities or both shall be carried on within the 9 m width.
(2) Despite Sentence (1), merchandising or public activities or both may be carried on within the 9 m width where they are approved and they do not endanger life safety or alternative measures are taken to provide life safety.
2.12.1.4. Access to exits within a covered mall shall be provided and maintained in conformance with Subsection 2.7.1.
2.12.1.5. Where a covered mall is used for merchandising or public activities, the activities shall be arranged so that access to fire protection equipment, including sprinkler control valves, fire hose stations, portable extinguishers and fire alarm stations is not restricted.
2.12.1.6. Decorative materials used for merchandising or public activities in a covered mall shall conform to the flame resistance and flameproofing requirements in Subsection 2.3.2.
2.12.1.7. Where a covered mall is used for the display of fueled equipment, batteries shall be disconnected and caps for fuel tanks shall be locked or secured against tampering.
SECTION 2.13INSTALLATION OF SMOKE ALARMS
Subsection 2.13.1.Scope
2.13.1.1. RESERVED
2.13.1.2. (1) Except as provided in Sentences (2) and (3), this Section applies to all dwelling units.
(2) RESERVED.
(3) This Section does not apply to dwelling units in buildings that are regulated under the scope of Part 9, including dwelling units regulated under Section 9.8.
Subsection 2.13.2.Installation
2.13.2.3. (1) Smoke alarms conforming to CAN/ULC-S531, “Smoke Alarms”, shall be installed in accordance with this Article.
(2) Smoke alarms shall be installed between each sleeping area and the remainder of the dwelling unit, and where the sleeping areas are served by hallways, the smoke alarms shall be installed in the hallways.
(2.1) In addition to the requirements in Sentence (2), at least one smoke alarm shall be installed on each storey that does not contain a sleeping area in a dwelling unit.
(3) Smoke alarms shall be installed by permanent connections to an electrical circuit and shall have no disconnect switch between the overcurrent device and the smoke alarm.
(4) Battery operated smoke alarms shall be deemed to be in compliance with Sentence (3).
(5) Existing smoke alarms meeting the requirements of ULC-S531-1978, “Smoke Alarms”, shall be deemed to be in compliance with Sentence (1).
SECTION 2.14 RESERVED
SECTION 2.15 PORTABLE OXYGEN SYSTEMS
Subsection 2.15.1. General
2.15.1.1. This Section applies to portable oxygen systems used for medical purposes in residential occupancies and health care facilities.
2.15.1.2. Storage, handling and use of portable oxygen systems shall be in conformance with CAN/CSA-Z305.12, “Guide for the Safe Storage, Handling, and Use of Portable Oxygen Systems in Home, Domiciliary, and Healthcare Settings”.
O. Reg. 388/97, Part 2; O. Reg. 398/98, s. 1; O. Reg. 451/05, ss. 3-6; O. Reg. 650/05, s. 1; O. Reg. 144/06, ss. 4-10.
PART 3
PROPERTY PROTECTION FOR INDUSTRIAL AND COMMERCIAL OCCUPANCIES
TABLE OF CONTENTS
SECTION 3.1 |
GENERAL |
Subsection 3.1.1. |
Scope |
SECTION 3.2 |
WOOD PRODUCTS |
Subsection 3.2.1. |
Woodworking Plants |
Subsection 3.2.2. |
Outdoor Storage of Lumber and Forest Products |
Subsection 3.2.3. |
Outdoor Storage of Wood Chips |
SECTION 3.3 |
STORAGE |
Subsection 3.3.1. |
Indoor Tire Storage |
Subsection 3.3.2. |
Indoor General Storage |
SECTION 3.4 |
INDUSTRIAL TRUCKS |
Subsection 3.4.1. |
General |
Subsection 3.4.2. |
Fuel-Fired Industrial Trucks |
Subsection 3.4.3. |
Battery-Powered Industrial Trucks |
SECTION 3.5 |
SALVAGE SHOPS AND SALVAGE YARDS |
Subsection 3.5.1. |
General |
Subsection 3.5.2. |
Piling |
Subsection 3.5.3. |
Outdoor Tire Storage Yards |
SECTION 3.6 |
CLEANING AND DYEING PLANTS |
Subsection 3.6.1. |
General |
Subsection 3.6.2. |
Ventilation |
Subsection 3.6.3. |
Fire Hazards |
SECTION 3.7 |
BOWLING ALLEYS |
Subsection 3.7.1. |
Resurfacing |
Subsection 3.7.2. |
Pin Refinishing |
Subsection 3.7.3. |
Flammable and Combustible Liquids |
SECTION 3.1GENERAL
Subsection 3.1.1.Scope
Scope
3.1.1.1. This Part provides for property protection by requiring that certain fire protection measures be applied in the case of specific occupancies where the use, storage and handling of hazardous materials or the stockpiling of combustible materials create a potentially serious fire hazard.
SECTION 3.2WOOD PRODUCTS
Subsection 3.2.1.Woodworking Plants
Lumber storage outdoors
3.2.1.1. The outdoor storage of lumber shall conform to Subsection 3.2.2.
Exhaust systems
3.2.1.2. Every machine that produces wood dust, particles or shavings shall be provided with a blower and exhaust system installed in conformance with NFPA 91, “Exhaust Systems for Air-Conveying of Materials”.
3.2.1.3. Operations that generate sparks or combustible vapours shall not be served by woodworking exhaust systems.
Sawdust disposal
3.2.1.4. Loose shavings and sawdust shall be swept up at frequent intervals and deposited in receptacles described in Articles 2.4.1.9. and 2.4.1.10.
Portable extinguishers
3.2.1.5. A portable extinguisher conforming to Subsection 6.2.6. or a garden-type hose shall be provided within 7.5 m of any machine that produces wood dust, particles or shavings.
3.2.1.6. Spray finishing operations using flammable or combustible liquids in woodworking plants shall conform to Part 5.
3.2.1.7. The storage and handling of flammable and combustible liquids shall be in conformance with Part 4.
Subsection 3.2.2.Outdoor Storage of Lumber and Forest Products
Deviations from requirements
3.2.2.1. This Subsection does not apply where the existing situation is approved and does not endanger life safety, or approved alternative measures to the requirements set out in this Subsection are taken to provide life safety.
Surface of ground
3.2.2.2. (1) Except as permitted in Sentence (2) and Article 3.2.2.3., storage sites for lumber and other forest products shall be level, solid ground, paved or surfaced with noncombustible material.
(2) Soft storage beds may be used for logs where embedment of stones or cinders may cause damage to cutting knives.
Surface under piling
3.2.2.3. (1) Forest products shall not be piled on refuse filled or sawdust filled land except where the site is covered with a layer of compacted earth to a minimum depth of 150 mm.
(2) Peat and humus are not acceptable materials for compacted earth cover in Sentence (1).
Clearance for yard storage areas
3.2.2.4. (1) Fire exposure to the yard areas from the mill operations and other structures shall be limited by providing clear space.
(2) The width of clear space shall be based upon the severity of exposure that will vary with the area, height, occupancy, construction and protection of the exposing structure and the type of piling and height of adjacent lumber piles.
(3) To provide for fire fighting operations, the clear space permanently available shall not be less than 4.5 m.
Clearance for stickered lumber piles
3.2.2.5. (1) Stickered lumber piles in lumber storage yards shall be located at least 15 m from property lines and buildings.
(2) Large size timbers and flat-piled stock may be stored or piled on the perimeter of the yard.
Clearance from vegetation
3.2.2.6. Storage yards shall be maintained free of combustible ground vegetation, including grass and weeds, for 4.5 m from the stored material and 30 m from brush and forested areas.
Wood waste disposal
3.2.2.7. Sawdust, chips and other waste material shall not be allowed to accumulate in piling areas in lumber yards.
Separation of treated lumber piles
3.2.2.8. Lumber and timber treated with combustible liquids shall be stored in piles that are separated from other stored material so that the distance between piles is at least twice the height of the treated pile, but not less than 4.5 m.
Storage beneath power lines
3.2.2.9. Stickered lumber piles, and piles of lumber and timber treated with combustible liquids shall not be stored beneath electrical power lines having a voltage in excess of 750 volts or that supply power to fire emergency systems.
Pile heights
3.2.2.10. Pile heights for stickered lumber piles shall not exceed 6 m.
3.2.2.11. Pile heights for randomly stacked or unranked piles shall not exceed 6 m unless special extinguishing equipment, such as portable turrets, deluge sets and monitor towers, is installed.
Fire department access
3.2.2.12. (1) Unless otherwise approved, each lumber yard shall be provided with at least 2 fire access routes in conformance with Sentence (2).
(2) The fire access routes required in Sentence (1) shall
(a) have a clear width of at least 6 m, unless it can be shown that lesser widths are satisfactory,
(b) be designed to support the expected loads imposed by fire fighting equipment and be surfaced with concrete, asphalt or other material designed to permit accessibility under all climatic conditions,
(c) be connected with a public thoroughfare, and
(d) be located as remotely as is possible in the circumstances from each other.
3.2.2.13. (1) Where storage areas are fenced or otherwise enclosed, gateways having a clear width of at least 3.5 m shall be provided to permit entry of fire department vehicles.
(2) Gateways shall be kept clear of obstructions so that gates may be opened fully at all times.
3.2.2.14. Groups of lumber piles shall be arranged with a maximum width of 15 m and a maximum length of 45 m, with fire department access routes surrounding each group of piles.
3.2.2.15. No vehicles shall be permitted to be parked overnight or equipment stacked in a fire department access route that is less than 7.5 m in width unless the parking is on one side only and there is at least 4.5 m of clear width for fire department vehicles.
3.2.2.16. RESERVED
Burning of wood waste materials
3.2.2.17. Shavings, sawdust and refuse materials shall be burned only in boilers or furnaces, or in incinerators or refuse burners conforming to Subsection 2.6.3.
3.2.2.18. Refuse burners or incinerators referred to in Article 3.2.2.17. shall be located at least 15 m from buildings or piles of logs or lumber or property lines.
3.2.2.19. Where the size and design of the burner or spark arresting screen, the prevailing winds or the location and arrangement of yard storage creates a fire hazard by conforming to Article 3.2.2.18., an approved increase in clear space referred to in Article 3.2.2.18. shall be provided to alleviate the fire hazard.
3.2.2.20. A refuse bin conforming to Articles 2.4.1.9. and 2.4.1.10. shall be provided at each boiler, furnace, incinerator and refuse burner referred to in Article 3.2.2.17.
3.2.2.21. Salamanders, braziers or other open flames shall not be used in storage yards.
Smoking prohibited
3.2.2.22. Smoking shall be prohibited in lumber yards, except as permitted in Subsection 2.4.3.
3.2.2.23. The telephone number of the fire department and location of the nearest telephones shall be posted conspicuously in working locations in the open yard and in each building.
Fire extinguishing provisions
3.2.2.24. (1) Outdoor lumber storage shall have fire protection provisions consisting of
(a) 200 L vessels with lids, having an opening of 457 mm least dimensions, located so that no person will have to travel more than 25 m from any part of the storage yard to reach a vessel, and
(b) three 12 L standard fire pails at each vessel.
(2) The water stored in the vessels and pump tanks shall be protected from freezing.
(3) The vessels, pails and pump tanks shall be painted red with the word “FIRE” in black painted thereon.
(4) Portable extinguishers having a 2A or higher rating conforming to the requirements of Section 6.2 may be provided in lieu of the requirements of Sentence (1).
3.2.2.25. Portable extinguishers shall be provided in conformance with Section 6.2 in each building located in a lumber yard.
Hydrant systems and water supply
3.2.2.26. The water supply available shall be adequate for hose streams and monitor towers, based on the provision of approved fire protection.
3.2.2.27. Where fire protection cannot be provided by municipal or private street hydrants or mobile pumping equipment to confine and control a fire within a lumber yard, the hydrant system shall be extended into the yard area so that all parts of lumber yards can be reached by using not more than 60 m of hose.
Subsection 3.2.3.Outdoor Storage of Wood Chips
Deviations from requirements
3.2.3.1. This Subsection does not apply where the existing situation is approved and does not endanger life safety, or approved alternative measures to the requirements set out in this Subsection are taken to provide life safety.
Surface of ground
3.2.3.2. The storage site shall be well drained and be level, solid ground or paved with asphalt, concrete or other hard surface material.
3.2.3.3. The ground surface between piles shall be kept free of combustible materials.
Vegetation removal
3.2.3.4. (1) Weeds, grass and similar vegetation shall be removed from the yard.
Burning of weeds
(2) Portable open-flame weed burners shall not be used in chip storage yards.
Pile dimensions
3.2.3.5. Piles shall not exceed 18 m in height, 90 m in width and 150 m in length unless temporary water pipes with hose connections are laid on the top surface of the pile.
Fire department access
3.2.3.6. (1) Space shall be maintained between chip piles and exposing structures, yard equipment or stock equal to
(a) twice the pile height for combustible stock or buildings, or
(b) the pile height for noncombustible buildings and equipment.
(2) Despite Sentence (1), space between chip piles and exposing structures, yard equipment or stock shall not be less than 9 m.
3.2.3.7. Where storage areas are fenced or otherwise enclosed, gates at least 3.5 m in width shall be provided to permit entry of fire department vehicles.
3.2.3.8. (1) Permanently installed access walkways at least 1.8 m wide and constructed of noncombustible material shall be provided so that hose streams may be directed on any part of the piles.
(2) Despite Sentence (1), other approved means may be used to ensure adequate fire department access to the piles.
3.2.3.9. Piles exceeding 150 m in length shall be surrounded by fire department access routes at least 9 m wide.
Smoking prohibited
3.2.3.10. Smoking shall be prohibited in chip pile areas.
Fire extinguishing provisions
3.2.3.11. Portable extinguishers for Class A fires shall be provided on vehicles operating on chip piles in addition to the units for Class B fires normally required for the vehicles.
3.2.3.12. (1) Hose houses or cabinets shall be provided around the perimeter of chip piles at intervals not exceeding 120 m.
(2) One 75 m length of 65 mm hose and 2 portable extinguishers having a 2A or higher rating and conforming to Section 6.2 shall be installed in each hose house or cabinet.
(3) Each hose required in Sentence (2) shall be connected to a water supply capable of supplying 1140 L/min of water to it at a pressure that will allow the hose stream to reach the top of the chip pile.
3.2.3.13. Portable extinguishers in conformance with Section 6.2 shall be provided in transfer houses.
SECTION 3.3STORAGE
Subsection 3.3.1.Indoor Tire Storage
Application
3.3.1.1. This Subsection applies to buildings used for the storage of tires in which the bulk volume of tires stored in one fire compartment exceeds 425 m3.
Tire pile dimensions
3.3.1.2. A single pile of tires in a tire storage location shall occupy an area not greater than 500 m2 with a maximum length of 30 m.
3.3.1.3. (1) The maximum piling height of tires shall not exceed the height used for the design of the fixed extinguishing system installed as required in Article 3.3.1.8.
(2) The maximum piling height allowed in Sentence (1) shall be posted in conspicuous locations.
Pile clearance
3.3.1.4. A clearance of at least 914 mm shall be maintained between the tops of piles and sprinkler head deflectors.
3.3.1.5. Aisles between individual piles shall be at least 1.8 m wide.
3.3.1.6. A clearance of at least 600 mm shall be maintained between piles of tires and columns and enclosing walls.
3.3.1.7. A tire storage location shall be classified as a Group ‘F’ Division 2 occupancy.
Warehouse fire extinguishing systems
3.3.1.8. (1) Where the floor area of a tire storage location exceeds 250 m2, the floor area shall be provided with an approved automatic fire extinguishing system installed in conformance with NFPA 231D, “Storage of Rubber Tires”.
(2) The design of the automatic fire extinguishing system required in Sentence (1) shall be based on the maximum piling height available.
3.3.1.9. A standpipe and hose system shall be installed in conformance with NFPA 231D, “Storage of Rubber Tires”.
Portable extinguishers
3.3.1.10. Portable extinguishers conforming to Section 6.2 shall be provided in tire storage locations so that there is one extinguisher with a 2A:10BC or higher rating for every 250 m2 of floor area.
Subsection 3.3.2.Indoor General Storage
Application
3.3.2.1. This Subsection applies to the indoor general storage of combustible or noncombustible solids with combustible packaging or storage aids to a height of 6.4 m, except that this Subsection does not apply to the bulk storage of unpackaged grain, coal or similar commodities, or special hazard commodities covered elsewhere in this Code.
Storage pile dimensions
3.3.2.2. (1) The area of individual storage piles shall not exceed 500 m2 in buildings that are not sprinklered.
(2) The area of individual storage piles shall not exceed 1000 m2 in sprinklered buildings.
(3) Heights of storage piles in buildings that are not sprinklered shall not exceed 4.5 m.
Pile clearance
3.3.2.3. (1) The clearance between sprinkler head deflectors and the tops of piles shall not be less than 457 mm.
(2) Where the storage piles are above the lower chords of floor or roof structural framing members, a horizontal clear space of at least 300 mm shall be maintained between the storage and the structural members.
Fire access aisles
3.3.2.4. At least one main aisle having a width equal to at least ½ the height of the highest adjacent pile and extending the length of the structure shall be provided but in no case shall the width of the aisle be less than 2.4 m.
3.3.2.5. Aisles separating piles described in Article 3.3.2.2. shall be at least 2.4 m wide.
3.3.2.6. (1) Adequate access for fire fighting purposes shall be provided and maintained to all portions of the premises, in conformance with Sentences (2) to (4).
(2) Except as permitted by Sentence (3), at least one main aisle shall extend the length of the building with a minimum width of
(a) 2.4 m for storage heights not more than 6 m, and
(b) 3.6 m for storage heights of more than 6 m.
(3) Narrower aisles may be approved where the building is sprinklered and the sprinkler design is based on aisle widths less than required by Sentence (2) but in no case shall the aisle width be less than the aisle width on which the sprinkler design is based.
(4) Access aisles not less than 1.0 m wide shall be provided to exits, to fire department access panels and to fire protection equipment.
(5) Aisles shall be maintained free of obstruction.
3.3.2.7. Wall clearances of at least 600 mm shall be maintained where stored commodities may swell or expand with the absorption of water.
Palletized storage arrangements
3.3.2.8. Palletized storage shall be arranged so that unobstructed horizontal channels formed by the top and bottom of pallets shall not exceed 15 m.
3.3.2.9. Except as permitted in Article 3.3.2.10., pallets and dunnage not in use shall be stored outdoors and be located so as to avoid an exposure hazard.
Pallet storage
3.3.2.10. (1) Indoor storage of combustible pallets and dunnage may be permitted in buildings that are not sprinklered provided the area of storage does not exceed 100 m2, the pile size does not exceed 1.2 m in height and 7.5 m in width, and the separating aisles are at least 2.4 m wide.
(2) Combustible pallets shall not be stored indoors to a height greater than 1.2 m except in areas sprinklered in conformance with Sentence (3).
(3) Buildings or compartments used for the storage of pallets shall be classified as Group ‘F’ Division 2 and shall be sprinklered in conformance with NFPA 231, “General Storage”.
SECTION 3.4INDUSTRIAL TRUCKS
Subsection 3.4.1.General
General
3.4.1.1. The designation, use, maintenance and operation of industrial trucks, including fork lifts, tractors, sweepers and motorized hand trucks, shall conform to NFPA 505, “Powered Industrial Trucks Including Type Designations, Areas of Use, Maintenance, and Operation”.
Subsection 3.4.2.Fuel-Fired Industrial Trucks
Truck storage
3.4.2.1. (1) Fuel-fired industrial trucks shall be stored
(a) in detached buildings,
(b) in areas separated from the remainder of the storage building by a fire separation having a 1-hr fire-resistance rating, or
(c) in areas where the vehicles do not create a hazard to the storage area.
Fueling of trucks
3.4.2.2. Except as provided in Article 3.4.2.3., industrial trucks shall be refueled only at designated locations outside buildings.
3.4.2.3. Industrial trucks that are fueled by replaceable propane containers may have the containers exchanged indoors at a safe location at least 7.5 m from ignition sources, open pits and underground entrances.
3.4.2.4. (1) Where replaceable propane containers are exchanged, valves at the containers shall be closed.
(2) Where an approved automatic quick-closing coupling that closes in both directions when uncoupled is not provided, the engine shall be allowed to operate until the fuel in the system is consumed.
3.4.2.5. Propane cylinders shall be stored in conformance with the Propane Storage, Handling and Utilization Code made under the Energy Act.
Portable extinguishers
3.4.2.6. Each fuel-fired industrial truck shall be equipped with a 5BC or higher rated portable extinguisher conforming to the requirements of Section 6.2.
Subsection 3.4.3.Battery-Powered Industrial Trucks
Battery charging installations
3.4.3.1. (1) Charging installations for battery-powered industrial trucks shall be located at least 1.5 m from combustible materials.
(2) Battery charging installations serving more than 2 trucks shall be located in well ventilated areas.
3.4.3.2. Battery charging equipment shall not be located in occupancies where combustible dusts, fibres, vapours or gases are present in hazardous quantities.
3.4.3.3. Facilities shall be provided at battery charging installations for flushing and neutralizing spilled electrolyte and for protecting charging apparatus from mechanical damage.
Portable extinguishers
3.4.3.4. Charging installations for battery-powered industrial trucks shall be equipped with a 10BC or higher rated portable extinguisher conforming to the requirements of Section 6.2.
Personnel restrictions
3.4.3.5. Only trained and authorized personnel shall be permitted to change or charge batteries.
Fire precautions
3.4.3.6. Precautions shall be taken to prevent open flames, sparks or electric arcs in battery charging areas.
SECTION 3.5SALVAGE SHOPS AND SALVAGE YARDS
Subsection 3.5.1.General
Roof storage prohibited
3.5.1.1. The roof of a building located in a salvage yard shall not be used for storage purposes.
Fires prohibited
3.5.1.2. Fires shall not be permitted in a salvage yard except when used for heating purposes or for operating machinery or welding or cutting equipment.
3.5.1.3. Gas tanks on vehicles to be salvaged shall be drained and ventilated prior to salvage operations.
Fire access gates
3.5.1.4. Where storage areas are fenced or otherwise enclosed, gates having a clear width of 3.5 m shall be provided to permit the entry of fire department vehicles.
Fire extinguishing provisions
3.5.1.5. Except where all salvage and scrap material is noncombustible and free of combustibles, water barrels of 200 L capacity with three 12 L pails or portable extinguishers having a 2A or higher rating conforming to the requirements of Section 6.2 shall be provided, so that the maximum travel distance from any part of the yard to a barrel or extinguisher is 25 m.
3.5.1.6. Portable extinguishers in conformance with Section 6.2 shall be provided in each building located in a salvage yard.
Hydrant systems and water supply
3.5.1.7. Except as required in Article 3.5.1.8., where a municipal hydrant system exists and is adjacent to the yard, the hydrant system shall be extended into the yard area so that all parts of the salvage yard can be reached by using not more than 60 m of hose.
3.5.1.8. Article 3.5.1.7. does not apply where the fire protection that is provided by the municipal street hydrants and mobile pumping equipment is approved as being adequate in the circumstances.
Smoking prohibited
3.5.1.9. Smoking shall be prohibited in salvage yards, except as permitted in Subsection 2.4.3.
3.5.1.10. The telephone number of the fire department and location of the nearest telephones shall be posted conspicuously in working locations in the open yard and in each building.
Subsection 3.5.2.Piling
Pile clearance and dimensions
3.5.2.1. Piles that include combustible salvage shall be 3 m from property lines, and not more than 3 m in height and 100 m2 in area.
3.5.2.2. Piles of salvage material shall be separated by a clear space of 3 m that is kept clear of grass and weeds.
Piles of tanks or drums
3.5.2.3. Tanks or drums shall be stored in piles separate from piles of other materials.
Combustible metals
3.5.2.4. (1) Piles or containers with metal shavings, turnings and dusts shall be stored in an area separate from other salvage materials and identified with warning signs.
(2) Warning signs required in Sentence (1) shall
(a) be visible from all directions of approach, and
(b) have the name of the metal and the words “COMBUSTIBLE METAL — DO NOT USE WATER” displayed in plain legible letters as described in Sentence (3).
(3) Lettering on warning signs shall be red or white letters 114 mm high with a 19 mm stroke on a contrasting background.
Subsection 3.5.3.Outdoor Tire Storage Yards
Application
3.5.3.1. (1) Despite Subsection 3.5.2., this Subsection applies with respect to the outdoor storage of tires or shredded tires where the bulk volume of stored product exceeds 300 m3.
(2) This Subsection does not apply where the stored tires or shredded tires are covered by a minimum depth of 150 mm of noncombustible material.
Prohibitions
3.5.3.2. (1) Open air burning is prohibited in storage yards.
(2) Cutting, welding or heating devices shall not be operated in storage yards.
(3) Smoking is prohibited in storage yards except as provided in Subsection 2.4.3.
(4) Storage piles shall not be located beneath electrical power lines with a voltage in excess of 750 volts or that supply power to fire emergency systems.
Fire safety planning
3.5.3.3. (1) Except as provided in Sentences (2) to (4), storage yards shall comply with the requirements of Section 2.8.
(2) The fire safety plan shall include provisions respecting access for water tanker shuttle operations within the fire department access routes, if water tanker shuttle operations are required in the circumstances of the storage yard.
(3) At least one copy of the fire emergency procedures shall be prominently posted and maintained at the storage yard.
(4) The telephone number of the fire department and location of the nearest telephone shall be posted conspicuously in attended locations.
Pile dimensions
3.5.3.4. (1) Individual storage piles shall not be more than 3 m in height and 100 m2 in area.
Pile separations
(2) Storage piles shall be separated by a clear space of at least 6 m from piles of other stored product.
Pile clearance
3.5.3.5. (1) Storage piles shall be located at least 15 m from property lines.
(2) Storage piles shall be located at least 15 m from buildings.
(3) Despite Sentence (2), the separation of storage piles from buildings may be determined in accordance with Appendix C, “Guidelines for Outdoor Storage of Scrap Tires”, of NFPA 231D, “Storage of Rubber Tires”, and NFPA-80A, “Protection of Buildings from Exterior Fire Exposures”.
(4) Individual storage piles shall be separated from other piles of salvage by a clear space of at least 6 m.
Clearances from vegetation
3.5.3.6. (1) Storage yards shall be maintained free of combustible ground vegetation,
(a) over a distance of 4.5 m from the stored product to grass and weeds, and
(b) over a distance of 30 m from the stored product to brush and forested areas.
Fire breaks
3.5.3.7. (1) Where the bulk volume of stored product is more than 4800 m3, fire breaks shall be provided around the perimeter of each group of storage piles in accordance with Sentences (2) and (3).
(2) Individual storage piles shall be arranged so that there are not more than 16 individual storage piles per group.
(3) Fire breaks shall be at least 22 m wide.
Alternative measures
3.5.3.8. Despite Articles 3.5.3.4. to 3.5.3.7., other pile arrangements that will prevent the spread of fire and that are approved may be used.
Fire department access
3.5.3.9. (1) Each tire storage yard shall be provided with fire access routes.
(2) The fire access routes shall,
(a) have a clear width of at least 6 m,
(b) be designed to support the loads imposed by fire fighting equipment,
(c) be surfaced with material designed to permit accessibility under all climatic conditions,
(d) be connected with a public thoroughfare in at least two places that are located as remotely as is possible in the circumstances from each other,
(e) be located within all pile clearances identified in Sentence 3.5.3.5.(1), (2) or (3) and within all fire breaks required in Article 3.5.3.7.,
(f) be within 50 m of any point in the storage yard where storage piles are located,
(g) be at least 6 m from any storage pile, and
(h) be maintained accessible and unobstructed at all times.
(3) Despite Sentences (1) and (2), alternate fire access routes may be provided if
(a) the routes permit fire fighting vehicles and equipment access and permit the use of fire suppression techniques appropriate in the circumstances, and
(b) the routes are approved.
Fencing
3.5.3.10. (1) Where the bulk volume of stored product is more than 600 m3, the storage yard shall be surrounded by a firmly anchored fence or other approved method of security that controls unauthorized access to the storage yard.
(2) Where a fence is used, the fence shall be at least 1.8 m high and constructed to discourage entry.
(3) The fence shall have gateways with a clear width of at least 3.5 m.
(4) The gateways shall be high enough to permit the entry of fire department vehicles.
(5) The gateways shall be kept clear of obstructions so that the gates may be opened fully at all times.
(6) The gates shall be locked when the storage yard is not staffed.
Water supply
3.5.3.11. (1) A public or private water supply shall be provided such that any part of the storage yard can be reached by using not more than 150 m of hose.
(2) When the quantity of stored product is between 300 m3 and 1200 m3, the water supply system shall be capable of supplying 1860 L/min for 3 hours.
(3) Where the quantity of stored product is 1200 m3 or more, the water supply system shall be capable of supplying 3780 L/min for 3 hours.
(4) Where on-site reservoirs or other established water supplies are used as a fire department draft source to meet the requirements of Sentences (1), (2) and (3), they shall be equipped with dry hydrants in accordance with Appendix B of NFPA 1231, “Water Supplies for Suburban and Rural Fire Fighting”.
Alternative measures
3.5.3.12. Despite Article 3.5.3.11., other water supply systems or other measures may be used if the systems or measures will provide sufficient fire suppression capability in the circumstances and if the systems or measures are approved.
Fire extinguishers
3.5.3.13. Fuel-fired vehicles operating in the storage yard shall be equipped with a 2A:10BC or higher rated portable extinguisher conforming to the requirements of Section 6.2.
SECTION 3.6CLEANING AND DYEING PLANTS
Subsection 3.6.1.General
Standard
3.6.1.1. (1) Dry cleaning plants shall conform to Chapter 1, except Clause 1-3, Chapter 2, except Clause 2-2.2, and Chapters 3 and 6 of NFPA 32, “Drycleaning Plants”.
(2) Despite Sentence (1) and except as permitted by Sentence (3), flammable liquids shall not be used for any purpose in dry cleaning and dyeing plants.
(3) Flammable and combustible liquids may be used as a local application to remove spots and stains if the liquids
(a) are stored in listed safety cans or closed containers not exceeding 5 L in capacity,
(b) do not exceed 25 L in aggregate quantity, and
(c) are dispensed from listed and labelled plunger type safety cans or containers that do not exceed 250 mL.
(4) Despite Sentences (1) and (3), flammable and combustible liquids shall not be stored or located in an area where the public has access and may use dry cleaning or dyeing equipment.
(5) Despite Sentence (1), electrical installations need not conform to NFPA 70, “National Electrical Code”, but shall conform to the Electrical Safety Code made under the Electricity Act, 1998.
(6) Existing dry cleaning plants and dyeing plants may be approved if the Chief Fire Official is satisfied that the level of fire safety specified in Sentence (1) is provided.
Use of combustible liquids
3.6.1.2. Combustible liquid solvents used in dry cleaning and dyeing plants shall be of an approved type.
3.6.1.3. Combustible liquids shall be stored and handled in conformance with Part 4.
3.6.1.4. Where combustible liquids are used as cleaning solvents, foreign materials shall be removed from the pockets and exterior of clothing in the receiving room.
3.6.1.5. Combustible liquids shall not be located where the public has access and may use dry cleaning equipment.
3.6.1.6. Combustible liquids used as a local application to remove spots and stains shall not exceed 4.6 L and shall be dispensed from listed and labelled plunger-type safety cans.
Subsection 3.6.2.Ventilation
Maximum solvent concentrations in atmosphere
3.6.2.1. Where combustible liquids are used in a dry cleaning or dyeing process, ventilating equipment shall be provided to maintain an average solvent concentration of not more than 100 ppm within 3 m horizontally of a cleaning or dyeing unit and not more than 40 ppm elsewhere in the plant.
Automatic shutdown of systems
3.6.2.2. Ventilation systems shall shut down automatically when manual fire alarm boxes or fire detectors are operated.
Manual shutdown of systems
3.6.2.3. (1) Where fire alarm systems are not installed, signs shall be posted to instruct employees to shut down the ventilation system in the event of fire.
(2) Emergency switches for this purpose shall be provided and placed in a conspicuous location in exit ways.
Exhaust outlet location
3.6.2.4. Exhaust ventilation outlets shall be located at least 7.5 m from any opening in a building.
Subsection 3.6.3.Fire Hazards
Clearances of equipment from appliances
3.6.3.1. Appliances with open flames or with exposed electrical heating elements shall not be placed within 6 m of dry cleaning or dyeing equipment in which combustible liquids are used unless such appliances are located in a separate enclosed room or cabinet which is independently ventilated.
Ducts for combustion air
3.6.3.2. Combustion air for gas or oil-fired equipment shall be conveyed through ducts from a source outside the building when such equipment is located in a dry cleaning or dyeing room.
Lint and refuse disposal
3.6.3.3. (1) Lint and refuse shall be removed from traps in dry cleaning and dyeing systems after each day’s work.
(2) The lint and refuse shall be disposed of in a receptacle conforming to Articles 2.4.1.9. and 2.4.1.10. or be removed from the premises.
SECTION 3.7BOWLING ALLEYS
Subsection 3.7.1.Resurfacing
Notification
3.7.1.1. The Chief Fire Official shall be notified when bowling alleys are to be resurfaced.
Closure to public
3.7.1.2. Bowling alleys shall not be open to the public during the resurfacing of alleys.
3.7.1.3. (1) During the application of the floor finishes and for one hour after such application, Sentences (2) to (4) apply.
(2) Mechanical exhaust systems, electric motors and other equipment, including lights, that might be a source of ignition shall be shut down.
(3) Smoking shall not be permitted and open flames shall not be used.
(4) Waste materials shall be disposed of in conformance with Article 3.7.3.2. in bowling alleys.
3.7.1.4. Maximum natural ventilation shall be maintained during the resurfacing operations.
Subsection 3.7.2.Pin Refinishing
3.7.2.1. (1) Pin refinishing shall be carried out in a building provided for this purpose, or in a room at or above grade separated by walls, floor and ceiling assemblies having a 1-hr fire-resistance rating.
(2) Smoking shall not be permitted in a pin refinishing room.
(3) Signs in conformance with Article 2.4.3.2. shall be posted in pin refinishing rooms.
Subsection 3.7.3.Flammable and Combustible Liquids
Storage
3.7.3.1. The storage and handling of flammable and combustible liquids shall be in conformance with Part 4.
Waste receptacles
3.7.3.2. (1) During the resurfacing or refinishing process, a receptacle conforming to Articles 2.4.1.9. and 2.4.1.10. shall be provided for waste rags and materials used in operations involving flammable finishes or solvents.
(2) The contents of the receptacles in Sentence (1) shall be removed daily and disposed of in a manner that is approved.
O. Reg. 388/97, Part 3; O. Reg. 302/99, s. 1.
PART 4
FLAMMABLE AND COMBUSTIBLE LIQUIDS
TABLE OF CONTENTS
SECTION 4.1 |
APPLICATION |
Subsection 4.1.1. |
Scope and Application |
Subsection 4.1.2. |
Classification |
Subsection 4.1.3. |
Flash Point |
Subsection 4.1.4. |
Electrical Installations |
Subsection 4.1.5. |
Fire Prevention and Protection |
Subsection 4.1.6. |
Spill Control and Drainage Systems |
Subsection 4.1.7. |
Ventilation |
Subsection 4.1.8. |
Handling of Flammable and Combustible Liquids |
SECTION 4.2 |
CONTAINER STORAGE AND HANDLING |
Subsection 4.2.1. |
Scope |
Subsection 4.2.2. |
General |
Subsection 4.2.3. |
Containers and Portable Tanks |
Subsection 4.2.4. |
Assembly and Residential Occupancies |
Subsection 4.2.5. |
Mercantile Occupancies |
Subsection 4.2.6. |
Business and Personal Services, Educational and Institutional Occupancies |
Subsection 4.2.7. |
Industrial Occupancies |
Subsection 4.2.8. |
Incidental Use |
Subsection 4.2.9. |
Rooms for Container Storage and Dispensing |
Subsection 4.2.10. |
Cabinets for Container Storage |
Subsection 4.2.11. |
Outdoor Container Storage |
SECTION 4.3 |
TANK STORAGE |
Subsection 4.3.1. |
Design, Construction and Use of Storage Tanks |
Subsection 4.3.2. |
Installation of Outside Aboveground Storage Tanks |
Subsection 4.3.3. |
Supports, Foundations and Anchorage for Aboveground Storage Tanks |
Subsection 4.3.4. |
Normal and Emergency Venting for Aboveground Storage Tanks |
Subsection 4.3.5. |
Vent Piping for Aboveground Storage Tanks |
Subsection 4.3.6. |
Openings Other than Vents in Aboveground Storage Tanks |
Subsection 4.3.7. |
Secondary Containment for Aboveground Storage Tanks |
Subsection 4.3.8. |
Installation of Underground Storage Tanks |
Subsection 4.3.9. |
Corrosion Protection of Underground Steel Storage Tanks |
Subsection 4.3.10. |
Vents for Underground Storage Tanks |
Subsection 4.3.11. |
Openings Other than Vents in Underground Storage Tanks |
Subsection 4.3.12. |
Installation of Storage Tanks Inside Buildings |
Subsection 4.3.13. |
Rooms for Storage Tanks |
Subsection 4.3.14. |
Openings Other than Vents in Storage Tanks in Buildings |
Subsection 4.3.15. |
Leakage Testing of Storage Tanks |
Subsection 4.3.16. |
Leakage Detection of Storage Tanks |
SECTION 4.4 |
PIPING AND TRANSFER SYSTEMS |
Subsection 4.4.1. |
Scope |
Subsection 4.4.2. |
Materials for Piping, Valves and Fittings |
Subsection 4.4.3. |
Corrosion Protection of Piping Systems |
Subsection 4.4.4. |
Identification of Piping Systems |
Subsection 4.4.5. |
Joints in Piping Systems |
Subsection 4.4.6. |
Leakage Testing of Piping Systems |
Subsection 4.4.7. |
Location and Arrangement of Piping |
Subsection 4.4.8. |
Valves in Piping Systems |
Subsection 4.4.9. |
Heating of Piping Systems |
Subsection 4.4.10. |
Methods of Transfer in Piping Systems |
Subsection 4.4.11. |
Operating Procedures for Piping Systems |
SECTION 4.5 |
FUEL DISPENSING STATIONS |
Subsection 4.5.1. |
Scope |
Subsection 4.5.2. |
Storage and Handling |
Subsection 4.5.3. |
Dispensing Systems |
Subsection 4.5.4. |
Shut-Off Devices |
Subsection 4.5.5. |
Delivery Hose and Nozzles |
Subsection 4.5.6. |
Remote Pumping Systems |
Subsection 4.5.7. |
Spill Control |
Subsection 4.5.8. |
Supervision and Dispensing Procedures |
Subsection 4.5.9. |
Leakage Detection |
Subsection 4.5.10. |
Fire Prevention and Protection |
SECTION 4.6 |
BULK PLANTS |
Subsection 4.6.1. |
Scope |
Subsection 4.6.2. |
Storage |
Subsection 4.6.3. |
Dispensing |
Subsection 4.6.4. |
Loading and Unloading Facilities |
Subsection 4.6.5. |
Fire Protection |
Subsection 4.6.6. |
Spill Control |
SECTION 4.7 |
PIERS AND WHARVES |
Subsection 4.7.1. |
Scope |
Subsection 4.7.2. |
General |
Subsection 4.7.3. |
Storage Tanks |
Subsection 4.7.4. |
Piping, Valves and Fittings |
Subsection 4.7.5. |
Bonding and Grounding |
Subsection 4.7.6. |
Fire Protection |
Subsection 4.7.7. |
Bulk Transfer Stations |
Subsection 4.7.8. |
Cargo Hose |
Subsection 4.7.9. |
Cargo Pumps |
Subsection 4.7.10. |
Pump Houses |
Subsection 4.7.11. |
Transfer Operations |
SECTION 4.8 |
PROCESS PLANTS |
Subsection 4.8.1. |
Scope |
Subsection 4.8.2. |
Outdoor Processing Equipment |
Subsection 4.8.3. |
Processing Buildings |
Subsection 4.8.4. |
Fire Prevention and Protection |
SECTION 4.9 |
DISTILLERIES |
Subsection 4.9.1. |
Scope |
Subsection 4.9.2. |
General |
Subsection 4.9.3. |
Storage Tanks and Containers |
Subsection 4.9.4. |
Storage |
Subsection 4.9.5. |
Piping and Pumping Systems |
Subsection 4.9.6. |
Ventilation |
Subsection 4.9.7. |
Spill Control |
Subsection 4.9.8. |
Fire Protection |
SECTION 4.10 |
WITHDRAWAL OF STORAGE TANKS FROM SERVICE |
Subsection 4.10.1. |
Scope |
Subsection 4.10.2. |
Rendering Storage Tanks Temporarily Out of Service |
Subsection 4.10.3. |
Removal of Underground Storage Tanks |
Subsection 4.10.4. |
Disposal and Reuse of Storage Tanks |
SECTION 4.11 |
TANK VEHICLES |
Subsection 4.11.1. |
Scope |
Subsection 4.11.2. |
General |
Subsection 4.11.3. |
Loading and Unloading |
SECTION 4.12 |
LABORATORIES |
Subsection 4.12.1. |
Scope |
Subsection 4.12.2. |
Separation |
Subsection 4.12.3. |
Maximum Quantities |
Subsection 4.12.4. |
Emergency Planning |
Subsection 4.12.5. |
Spill Control |
Subsection 4.12.6. |
Electrical Equipment |
Subsection 4.12.7. |
Inspection and Maintenance |
Subsection 4.12.8. |
Ventilation |
Subsection 4.12.9. |
Refrigerated Storage |
SECTION 4.1APPLICATION
Subsection 4.1.1.Scope and Application
Scope
4.1.1.1. (1) This Part provides for the storage, handling, processing and use of
(a) flammable or combustible liquids, and
(b) liquids with flash points greater than 93.3oC, when processed, stored, handled or used at temperatures above their flash points in buildings, structures and open areas.
(2) For the purposes of this Part, “existing” means in existence on November 21, 1997.
Application
4.1.1.2. (1) Areas in process plants need not conform to this Part where specific hazards are addressed by design and operational procedures that meet recognized standards and equivalent protection is provided.
(2) Except as specifically provided elsewhere in this Part, this Part does not apply to,
(a) the transportation of flammable or combustible liquids to which the Transportation of Dangerous Goods Act (Canada) and its regulations, or the Dangerous Goods Transportation Act (Ontario) and its regulations apply,
(b) the transportation of flammable or combustible liquids through pipelines to which the Energy Act and its regulations apply,
(c) appliances and their ancillary equipment (burning hydrocarbons) to which the Energy Act apply,
(d) the storage, handling, transportation and use of flammable or combustible liquids to which the Gasoline Handling Act and the Energy Act apply,
(e) the storage, handling and use of flammable or combustible liquids at airports, piers and wharves regulated under Federal law,
(f) underground areas to which the Occupational Health and Safety Act and its regulations apply,
(g) the storage of aerosol products which are covered under Subsection 3.2.5. of the National Fire Code, and
(h) the storage of flammable or combustible liquids on farms for individual farm use.
(3) Where there is a conflict between this Part and the Boilers and Pressure Vessels Act, the Boilers and Pressure Vessels Act shall apply.
Compliance
4.1.1.3. (1) Except as provided in Article 4.1.1.4.,
(a) this Part, and
(b) for existing facilities, the requirements of Articles 4.1.5.1., 4.1.5.3., 4.1.5.4., 4.1.5.5., 4.1.5.6., 4.1.5.8., 4.1.5.10., 4.1.6.3., 4.1.6.4., 4.1.7.8., 4.1.8.1., 4.1.8.2., 4.2.3.1., 4.2.3.2., 4.2.4.4., 4.2.7.8., 4.2.7.9., 4.2.7.10., 4.2.7.11., 4.2.7.12., 4.2.9.4., 4.2.9.7., 4.2.10.4., 4.2.10.6., 4.3.2.6., 4.3.16.1., 4.3.16.3., 4.4.6.3., 4.4.9.5., 4.5.10.1., 4.5.10.2., 4.6.4.2., 4.6.5.1., 4.7.6.1., 4.7.6.2. and 4.9.8.1., Subsections 4.1.1., 4.1.2., 4.1.3., 4.1.4., 4.2.2., 4.3.15., 4.4.11., 4.12.1., 4.12.4., 4.12.5., 4.12.6. and 4.12.7., and Sections 4.10, 4.11,
come into force on the 21st day of August, 1998.
Compliance schedule
4.1.1.4. (1) For existing facilities, the requirements of Articles 4.1.5.7., 4.1.5.9., 4.1.6.1., 4.1.6.2., 4.1.7.1., 4.1.7.2., 4.1.7.3., 4.1.7.4., 4.1.7.5., 4.1.7.6., 4.1.7.7., 4.1.8.3., 4.1.8.4., 4.2.3.3., 4.2.3.4., 4.2.4.1., 4.2.4.2., 4.2.4.3., 4.2.4.5., 4.2.4.6., 4.2.7.1., 4.2.7.2., 4.2.7.3., 4.2.7.4., 4.2.7.5., 4.2.7.6., 4.2.7.7., 4.2.7.13., 4.2.9.1., 4.2.9.2., 4.2.9.3., 4.2.9.5., 4.2.9.6., 4.2.9.8., 4.2.10.1., 4.2.10.2., 4.2.10.3., 4.2.10.5. 4.3.16.2. and 4.6.4.5., Subsections 4.2.1., 4.2.5., 4.2.6., 4.2.8., 4.2.11., 4.3.1., 4.3.4., 4.3.5., 4.3.6., 4.3.10., 4.4.6. (except Articles 4.4.6.3. and 4.4.6.7.), 4.12.2., 4.12.3., 4.12.8. and 4.12.9., and Sections 4.5 (except Articles 4.5.10.1. and 4.5.10.2.) and 4.7 (except Articles 4.7.6.1. and 4.7.6.2.), come into force on August 21, 2000.
(2) For existing facilities, the requirements of Articles 4.3.2.4., 4.3.2.5., Subsections 4.3.3., 4.3.7., 4.3.8. (except Sentence 4.3.8.1.(2) and Article 4.3.8.2.), 4.3.9., 4.3.11., 4.3.12., 4.3.13. and 4.3.14., and Sections 4.4 (except Subsections 4.4.11. and 4.4.6. and Article 4.4.9.5.), 4.6 (except Articles 4.6.4.2., 4.6.4.5. and 4.6.5.1.), 4.8 and 4.9 (except Article 4.9.8.1.), come into force on August 21, 2002.
(3) Existing conditions are acceptable with respect to Articles 4.3.2.1., 4.3.2.2., 4.3.2.3. and 4.3.8.2. and Sentence 4.3.8.1.(2) until replacement or relocation of a tank is carried out at which time these requirements shall apply.
Compliance equivalency
4.1.1.5. (1) A requirement of this Part shall be deemed to be complied with if the composition, design, size and arrangement of any material, object, device or thing varies from the composition, design, size or arrangement prescribed in this Part where strength, health and safety are equal to or greater than the strength, health and safety in the composition, design, size or arrangement prescribed, and has been approved by the Chief Fire Official.
(2) A proposal for compliance equivalency shall bear the signature and seal of a Professional Engineer or Architect or both.
Compliance equivalency process
4.1.1.6. (1) A proposal for compliance equivalency for an existing facility shall be submitted, allowing sufficient time for the work to be done plus 90 days for review by the Chief Fire Official, so that the work can be approved and completed by the compliance date set out in Article 4.1.1.4.
(2) The Chief Fire Official shall approve or reject the compliance equivalency within 90 days of receipt of the request.
(3) Where the Chief Fire Official is unable to comply within the 90 day period in Sentence (2), the owner shall be advised as to when a response will be provided. An extension equal to the additional time needed by the Chief Fire Official in excess of the 90 days shall be added to the compliance time.
(4) The Chief Fire Official shall notify the owner in writing of the decision.
(5) Where the compliance equivalency is not approved, the Chief Fire Official shall provide reasons therefor in writing.
(6) An owner who feels aggrieved by the decision not to approve a compliance equivalency may, within 30 days of the refusal, appeal the decision in the same manner as though it were an Order.
(7) All notification under this Part shall be served either personally or by ordinary mail.
(8) Where notification is by mail, it shall be deemed to have been served on the fifth day after the date of mailing.
(9) A compliance equivalency that has been approved and implemented shall be deemed to satisfy the applicable requirements addressed in the compliance equivalency.
(10) A copy of the approved compliance equivalency shall be kept on the premises to which it relates and made available to the Chief Fire Official upon request.
Subsection 4.1.2.Classification
Classification
4.1.2.1. (1) For the purposes of this Part, flammable and combustible liquids shall be classified in conformance with Sentences (2) and (3).
(2) Flammable liquids shall be Class I liquids, and shall be subdivided into
(a) Class IA liquids, which include those having a flash point below 22.8oC and a boiling point below 37.8oC,
(b) Class IB liquids, which include those having a flash point below 22.8oC and a boiling point at or above 37. 8oC, and
(c) Class IC liquids, which include those having a flash point at or above 22.8oC and below 37.8oC.
(3) Combustible liquids shall be Class II or Class IIIA liquids, and shall be subdivided into
(a) Class II liquids, which include those having a flash point at or above 37.8oC and below 60oC, and
(b) Class IIIA liquids, which include those having a flash point at or above 60oC and below 93.3oC.
Heated liquids
4.1.2.2. When a liquid having a flash point at or above 37.8oC is being processed, stored, handled or used at a temperature at or above its flash point, it shall be treated as a Class I liquid.
Used lubricating oil
4.1.2.3. (1) Except as provided in Sentence (2), used lubricating oil drained from motor vehicles shall be classified as a Class IIIA liquid.
(2) When Class I or II liquids are added to used oils referred to in Sentence (1), the resulting mixture shall be classified by tests conforming to Subsection 4.1.3.
Subsection 4.1.3.Flash Point
Determination of flash point
4.1.3.1. (1) Except as provided in Sentences (3) and (4), the flash point of liquids having a viscosity less than 6 mm2/s at 37.8oC and a flash point below 93.3oC shall be determined in conformance with ASTM D 56, “Flash Point by Tag Closed Tester”.
(2) Except as provided in Sentences (3) and (4), the flash point of liquids having a viscosity of 6 mm2/s or more at 37.8oC or a flash point of 93.3oC or higher shall be determined in conformance with ASTM D 93, “Flash Point by Pensky-Martens Closed Tester”.
(3) The flash point of aviation turbine fuels may be determined in conformance with ASTM D 3828, “Flash Point by Small Scale Closed Tester”.
(4) The flash point for paints, enamels, lacquers, varnishes and related products and their components having flash points between 0oC and 110oC, and having a viscosity less than 15000 mm2/s (150 stokes) at 25oC may be determined in conformance with ASTM D 3278, “Flash Point of Liquids by Setaflash Closed-Cup Apparatus”.
Subsection 4.1.4.Electrical Installations
Hazardous locations
4.1.4.1. Electrical equipment in a location where flammable or combustible liquids are present shall conform to the Electrical Safety Code made under the Electricity Act, 1998.
Subsection 4.1.5.Fire Prevention and Protection
Portable extinguishers
4.1.5.1. Portable extinguishers required in this Part shall be in accordance with Section 6.2.
Additional fire protection equipment
4.1.5.2. RESERVED
Ignition sources
4.1.5.3. Unless controlled in a manner that will not create a fire or explosion hazard, a device, operation or activity that produces open flames, sparks or heat shall not be permitted in an area described in Article 4.1.1.1.
Smoking
4.1.5.4. Except for designated safe smoking areas conforming to Subsection 2.4.3., smoking shall not be permitted in areas described in Article 4.1.1.1.
Removal of combustibles
4.1.5.5. (1) Areas described in Article 4.1.1.1. shall be kept clean and free of ground vegetation and accumulations of combustible materials not essential to operations.
(2) Cleaning rags shall be stored in receptacles conforming to Articles 2.4.1.9. and 2.4.1.10.
Fire safety plan
4.1.5.6. The requirements of Section 2.8 shall apply to buildings and open areas where the quantities of flammable and combustible liquids exceeds 500 L in total or exceeds 250 L of Class I liquids.
Access for fire fighting
4.1.5.7. Aisles and other access paths shall be maintained to permit the unobstructed movement of personnel and fire department apparatus so that fire fighting operations can be carried out in any part of an area used for the storage, use or handling of flammable or combustible liquids.
Hot works
4.1.5.8. Hot works shall be performed in conformance with Section 5.17.
Basement storage
4.1.5.9. (1) Except as permitted in Sentences (2), (3) and (4), Class I liquids shall not be stored, handled or used in basements or pits.
(2) Class I liquids may be stored in dwelling units as described in Article 4.2.4.5. and mercantile occupancies as described in Sentence 4.2.5.2.(3).
(3) Up to 5 L of Class I liquids may be stored in basements, provided it is stored in safety containers conforming to ULC/ORD-C30, “Safety Containers”.
(4) Class I liquids not exceeding 250 L in quantity may be stored, handled or used in existing laboratories described in Subsection 4.12.1. where
(a) continuous mechanical ventilation is provided to ensure that flammable vapour concentrations do not exceed 25 per cent of the lower explosive limit in the basement or pit,
(b) the continuous mechanical ventilation required in Clause (a) sounds an audible alarm in an attended area upon shut down of the ventilation system,
(c) the Class I liquids are located in a fire compartment separated from the rest of the building by a fire separation having a 1-hr fire-resistance rating,
(d) despite Article 4.1.5.6., the building has a fire safety plan in conformance with Section 2.8,
(e) Class IA liquids are not stored in containers greater than 4 L in capacity,
(f) except where all dispensing of Class I liquids is carried out in a power ventilated enclosure in conformance with Articles 4.12.8.3. to 4.12.8.5. and where Class IA liquids are stored in storage cabinets in conformance with Article 4.2.10.5., the room is designed to prevent critical structural and mechanical damage from internal explosion in conformance with NFPA 68, “Guide for Venting of Deflagrations”, and
(g) except where all sources of ignition within 0.9 m from the floor are eliminated, the room is provided with a flammable vapour detection system that will alarm in an attended location upon detection of vapour concentrations exceeding 10 per cent of the lower explosive limit.
(5) Despite Clause (4)(c), existing fire separations consisting of lath and plaster or gypsum board shall be deemed to be in compliance with Clause (4)(c).
Routine maintenance
4.1.5.10. Maintenance of any equipment involved in the storage, handling, processing and use of flammable or combustible liquids, whose failure would significantly increase the fire or explosion hazard and whose maintenance requirements are not addressed in another Part of this Code shall be maintained in accordance with its listed requirements and if not listed, be maintained in accordance with the manufacturers’ recommendations or good engineering practice.
Subsection 4.1.6.Spill Control and Drainage Systems
Spill control
4.1.6.1. (1) A spill of flammable or combustible liquids shall be prevented from reaching waterways, sewer systems and potable water sources by
(a) a barrier of noncombustible construction of sufficient capacity to contain the spill, or
(b) grading the site or sloping the floor to divert the spill to a drainage system conforming to Article 4.1.6.2.
(2) Where barriers required in Sentence (1) are provided to contain accidental spillage from aboveground storage tanks, they shall conform to the requirements for secondary containment in Subsection 4.3.7.
(3) The fire safety plan required in Article 4.1.5.6. shall include measures to be taken to direct overflow of spilled liquids and fire fighting water away from
(a) buildings,
(b) isolation valves controlling processes or fire protection systems,
(c) a means of egress,
(d) adjoining property,
(e) fire department access routes, and
(f) a water supply used for fire fighting.
Drainage systems
4.1.6.2. (1) A drainage system referred to in Clause 4.1.6.1.(1)(b) shall
(a) terminate at a location where such a spill will not create a fire hazard or any risk to health or safety or the natural environment, and
(b) direct the spill away from buildings, means of egress, fire department access roadways, or valves controlling the flow of flammable or combustible liquids or water supplies for fire fighting.
(2) Closed drainage systems shall be equipped with a trap.
Spills and leaks
4.1.6.3. (1) Maintenance and operating procedures shall be established to prevent the escape of flammable or combustible liquids to areas where they could create a fire or explosion hazard.
(2) Except as provided in Sentence (3), all reasonable steps shall be taken to recover escaped liquid and to remove or treat contaminated soil, surface water, ground water or aquatic sediments.
(3) Liquid spilled or leaked shall be
(a) flushed to a location conforming to Article 4.1.6.2., or
(b) removed with the aid of an absorbent conforming to Sentence (4), deposited in a receptacle conforming to Subsection 2.4.1. and disposed of in a manner that does not create a fire or explosion hazard.
(4) An absorbent required in Sentence (3) shall
(a) be noncombustible, or
(b) conform to ULC/ORD-C410A, “Absorbents for Flammable and Combustible Liquids”.
(5) Clean-up shall conform with Part X (Spills) of the Environmental Protection Act.
Spill procedure
4.1.6.4. (1) A spill control procedure shall be approved and implemented for any occupancy where flammable or combustible liquids are stored, handled, processed or used.
(2) The spill control procedure referred to in Sentence (1) shall include
(a) suitable operating procedures to prevent leaks and spills from piping, pumps, storage tanks or process vessels,
(b) ventilation,
(c) control of ignition sources,
(d) spill containment and cleanup (such as dikes and spill control agents such as sand),
(e) personal protective clothing or equipment that should be used (such as rubber gloves, rubber boots and self-contained breathing apparatus),
(f) handling and disposal of waste in accordance with the Ministry of Environment and Energy requirements,
(g) chain of command including notification of affected agencies and management,
(h) a preventive maintenance program, and
(i) training for new staff within 3 months of their being hired and for experienced staff every 6 months.
(3) Spill control procedures shall be prominently posted and maintained where flammable or combustible liquids are stored, handled, processed or used.
Subsection 4.1.7.Ventilation
Rooms or enclosed spaces
4.1.7.1. Where flammable or combustible liquids are processed, handled, stored, dispensed or used within rooms or enclosed spaces, ventilation shall conform to this Part and the Building Code.
Ventilation measures
4.1.7.2. (1) Except as permitted in Sentence (2), a room or enclosed space referred to in Article 4.1.7.1. shall be provided with a ventilation system having
(a) continuous mechanical ventilation where Class I liquids are processed, dispensed or used in a manner that releases flammable vapours into the room or enclosed space, or
(b) either natural or continuous mechanical ventilation where
(i) Class I liquids are stored, processed, dispensed or used in a manner that does not release flammable vapours into the room or enclosed space, or
(ii) Class II liquids are processed, dispensed or used.
(2) Ventilation referred to in Clause (1)(b) need not be provided for the storage of Class I liquids if
(a) storage consists of only closed containers, and
(b) no dispensing operations are performed.
(3) Ventilation required in Sentence (1) shall be sufficient to ensure that flammable vapour concentrations outside the zone identified as Class I, Division I in conformance with Article 4.1.4.1. do not exceed 25 per cent of the lower explosive limit of the flammable vapour.
(4) Where a mechanical ventilation system is installed to meet the conditions of Sentence (3), it shall be capable of exhausting at least 18 m3/hr per square metre of room area, but not less than 250 m3/hr.
(5) Where continuous mechanical ventilation is installed in order to meet the conditions of Sentence (1), it shall
(a) be provided with automatic interlocks so that the activity generating flammable vapours cannot be performed when the ventilation system is not in operation, and
(b) sound an audible alarm in an attended area upon shut down of the ventilation system.
(6) Where ventilation to the exterior environment is required, concentrations shall not exceed point of impingement concentrations as specified in Regulation 346 made under the Environmental Protection Act.
(7) Despite Sentences (1) and (2), for those occupancies of facilities that are covered by the Regulations for Industrial Establishments and the Regulations for Health Care and Residential Facilities under the Occupational Health and Safety Act, ventilation requirements for a room or enclosed space referred to in Article 4.1.7.1. shall be provided with
(a) continuous mechanical ventilation where Class I liquids are processed, dispensed or used in a manner that releases flammable vapours into the room or enclosed space, and
(b) continuous mechanical or natural ventilation to the outdoors by upper and lower vents where
(i) Class I liquids are stored, or
(ii) Class II liquids are processed, dispensed or used.
Location of air inlets and outlets
4.1.7.3. (1) Ventilation air inlets and outlets within a room or enclosed space referred to in Article 4.1.7.1. shall be arranged in conformance with Sentences (2) to (4).
(2) Where the flammable vapour being removed is heavier than air,
(a) at least one air inlet shall be located at a point near a wall, no higher than 300 mm from the floor, and
(b) at least one air outlet shall be located near the opposite wall, no higher than 300 mm from the floor.
(3) Where the flammable vapour being removed is lighter than air,
(a) at least one air inlet shall be located at a point near a wall, no lower than 300 mm from the ceiling, and
(b) at least one air outlet shall be located near the opposite wall, no lower than 300 mm from the ceiling.
(4) When the average air velocity in the room exceeds 0.5 m/s, make-up air shall be provided in conformance with Article 4.1.7.5.
Location of mechanical ventilation exhaust air outlets
4.1.7.4. (1) Except as provided in Article 4.1.7.6., the exhaust air outlet from a mechanical ventilation system required in Article 4.1.7.2. shall be
(a) located outdoors, not less than 3 m from any building opening, and
(b) arranged so that the exhaust air does not discharge toward any unprotected opening within 7.5 m of the discharge point.
Make-up air
4.1.7.5. (1) Where make-up air for a mechanical ventilation system is taken from within the building, the opening into the room or enclosed space shall be provided with a fire damper.
(2) Make-up air for a natural or mechanical ventilation system shall be taken from a point remote from any exhaust air discharge described in Article 4.1.7.4.
(3) Make-up air for a natural ventilation system shall be taken from a point outside the building.
Recirculating ventilation systems
4.1.7.6. (1) Where a mechanical ventilation system is installed in conformance with Article 4.1.7.2., and where exhaust air is recirculated, a fail-safe vapour detection and alarm system shall be provided to continuously monitor the flammable vapour concentration in the exhaust air, and if the vapour concentration exceeds 25 per cent of the lower explosive limit of the vapour, the system will
(a) sound an alarm,
(b) stop the recirculation of air, and
(c) redirect the exhaust air to an outdoor location.
Exclusive use of ducts
4.1.7.7. Ducts used in a ventilation system as required in Article 4.1.7.2. shall not be used for any other ventilation or exhaust system.
Maintenance
4.1.7.8. Inlet and exhaust openings and associated ducts shall be kept free of any obstructions that may interfere with the operation of the ventilation system.
Subsection 4.1.8.Handling of Flammable and Combustible Liquids
Containers and storage tanks
4.1.8.1. (1) All flammable and combustible liquids shall be stored in containers conforming to Subsection 4.2.3. or in storage tanks conforming to Subsection 4.3.1.
(2) Containers and storage tanks for flammable or combustible liquids shall be kept closed when not in use.
Control of static electric charge
4.1.8.2. (1) When Class I liquids are dispensed into a container or storage tank,
(a) if the container or storage tank is made of metallic or electrically conducting material, such container or storage tank shall be electrically connected to the fill stem, or rest on a conductive floor that is electrically connected to the fill stem, or
(b) if the container or storage tank is made of non electrically conducting material, measures shall be taken to minimize the potential for a static electric charge to develop.
(2) Except as provided in Sentence (3), when Class I liquids are transferred into a storage tank through the top of the tank, the fill pipe shall terminate within 150 mm of the bottom of the tank.
(3) Sentence (2) shall not apply when
(a) the storage tank vapour space cannot exceed 25 per cent of the lower explosive limit or is filled with an inert gas that prevents the ignition of the vapour mixture, or
(b) the liquid being transferred has a minimum conductivity that prevents the accumulation of static electricity.
(4) Fill pipes referred to in Sentence (2) shall be installed in such a way as to minimize vibration of the pipe.
Transfer
4.1.8.3. (1) Class I liquids shall be drawn from or transferred into containers or storage tanks within a building
(a) through a piping or transfer system conforming to Section 4.4,
(b) by means of a pump designed in conformance with good engineering practice on top of the container or storage tank, or
(c) by gravity through a self-closing valve designed in conformance with good engineering practice.
(2) Except as provided in Subsection 4.4.10., the transfer of flammable or combustible liquids by means of pneumatic pressure applied to a container or storage tank shall not be permitted.
Fuel tanks of vehicles
4.1.8.4. (1) It is permitted to use movable tanks for dispensing flammable or combustible liquids into the fuel tanks of vehicles or other motorized equipment provided such movable tanks are used in conformance with the requirements of this Part for storage tanks.
(2) Only enclosed pumping equipment designed in conformance with good engineering practice shall be used to transfer Class I liquids to or from the fuel tanks of vehicles inside buildings.
SECTION 4.2CONTAINER STORAGE AND HANDLING
Subsection 4.2.1.Scope
Application
4.2.1.1. (1) Except as provided in Sentence (2), this Section applies to the storage, handling and use of flammable or combustible liquids in
(a) containers conforming to Clauses 4.2.3.1.(1)(a) to (d) having a capacity of not more than 230 L, or
(b) portable tanks conforming to Clause 4.2.3.1.(1)(e) having an individual capacity of not more than 2500 L.
(2) Except as otherwise stated in this Part, this Section shall not apply to
(a) fuel dispensing stations, bulk plants, refineries and distilleries,
(b) liquids in the fuel tank of motors or engines,
(c) distilled beverage alcohol in closed containers when stored in conformance with Part 3 of the National Fire Code 1995,
(d) food and pharmaceutical products when in closed containers having a capacity of not more than 5 L, or
(e) products containing not more than 50 per cent by volume of water-miscible flammable or combustible liquids with the remainder of the solution being nonflammable, when in closed containers having a capacity of not more than 5 L.
(3) Portable tanks having a capacity greater than 2500 L shall be installed in conformance with Section 4.3.
(4) For the purpose of this Section, unstable liquids shall meet the requirements for Class IA liquids.
(5) Except as otherwise stated, requirements for containers in this Part shall also apply to portable tanks described in Sentence (1).
Subsection 4.2.2.General
Storage locations
4.2.2.1. (1) Flammable or combustible liquids shall not be stored in or adjacent to exits, including outdoors, elevators or principal routes that provide access to exits.
(2) Where flammable or combustible liquids are stored, storage shall be in conformance with Subsections 4.2.4. to 4.2.11.
Storage arrangement
4.2.2.2. In addition to the provisions of this Section, the method of storage of flammable and combustible liquids shall be determined to ensure stability of the stored products.
Separation from other dangerous goods
4.2.2.3. (1) Except as provided in Sentence (2), flammable and combustible liquids shall be separated from other dangerous goods in conformance with Sections 3.2 and 3.3 of the National Fire Code 1995.
(2) For the purposes of applying Table 3.2.7.6. of the National Fire Code 1995, Class IIIA liquids shall be treated as Class 3 dangerous goods.
Subsection 4.2.3.Containers and Portable Tanks
Design and construction
4.2.3.1. (1) Except as permitted in Articles 4.2.3.3. and 4.2.3.4., containers and portable tanks for flammable or combustible liquids shall be built in conformance with
(a) the Transportation of Dangerous Goods Regulations (Canada),
(b) CSA-B376, “Portable Containers for Gasoline and Other Petroleum Fuels”,
(c) CSA-B306, “Portable Fuel Tanks for Marine Use”,
(d) ULC/ORD-C30, “Safety Containers”, or
(e) Section 6 of CSA-B620, “Highway Tanks and Portable Tanks for the Transportation of Dangerous Goods”.
Markings or labels
4.2.3.2. (1) Except as provided in Sentence (2) and Article 4.2.3.1., containers for flammable or combustible liquids shall be distinctly marked or labelled in easily legible type which is in contrast to any other printed matter on the label with a warning to indicate that
(a) the material in the container is flammable,
(b) it should be kept away from heat, sparks and open flames, and
(c) it should be kept closed when not in use.
(2) Markings referred to in Sentence (1) are not required when the container is labelled in conformance with
(a) the Transportation of Dangerous Goods Act (Canada) and its regulations,
(b) the Hazardous Products Act (Canada) and its regulations, and
(c) the Pest Control Products Act (Canada) and its regulations.
Plastic and glass containers
4.2.3.3. Except as permitted in Articles 4.2.3.1. and 4.2.3.4., the storage, handling and use of flammable or combustible liquids in a glass or plastic container shall be permitted only if the required liquid purity would be affected by storage in a metal container or if the liquid would cause excessive corrosion of the metal container.
Other containers
4.2.3.4. (1) Except as permitted in Sentences (2) and (3), the storage and use of Class I or II liquids, in containers other than those described in Article 4.2.3.1., shall not be permitted within a building.
(2) A container of not more than 1 L capacity for Class I liquids and 5 L capacity for Class II or IIIA liquids need not conform to Article 4.2.3.1.
(3) It is permitted to use sample containers not conforming to Article 4.2.3.1. for quality control or testing purposes.
Subsection 4.2.4.Assembly and Residential Occupancies
Application
4.2.4.1. (1) This Subsection applies to the storage and handling of flammable and combustible liquids in buildings classified as assembly or residential occupancies, except that it shall not apply to nonresidential schools, universities or colleges covered in Subsection 4.2.6.
Maximum quantities
4.2.4.2. (1) Except as provided in Sentence (4) and in Articles 4.2.4.5. and 4.2.4.6., the maximum quantity of flammable or combustible liquids stored in a building shall conform to Sentences (2) and (3).
(2) When a single class of liquid is stored in a building, the total quantity of liquid shall not exceed
(a) 30 L of Class I liquids,
(b) 150 L of Class II liquids, or
(c) 600 L of Class IIIA liquids.
(3) When 2 or more classes of liquid are stored in the same building, the total quantity permitted for each class of liquid shall be calculated as follows:
qI/30 + qII/150 + qIIIA/600 < 1
where
qI |
= |
the actual quantity of Class I liquid present, in litres, |
qII |
= |
the actual quantity of Class II liquid present, in litres, |
qIIIA |
= |
the actual quantity of Class IIIA liquid present, in litres. |
(4) Quantities of flammable or combustible liquids exceeding those permitted in Sentence (1) are permitted, provided they are kept
(a) in storage cabinets conforming to Subsection 4.2.10., except that the total quantity of flammable and combustible liquids stored in such cabinets shall not exceed the quantity permitted for one cabinet, or
(b) in a storage room conforming to Subsection 4.2.9. and having no openings that communicate directly with the public portions of the building.
Storage cabinets and storage rooms
4.2.4.3. The storage cabinets and storage rooms referred to in Sentence 4.2.4.2.(4) shall not be located above or below the first storey.
Exterior balconies
4.2.4.4. Flammable and combustible liquids shall not be stored on exterior balconies.
Dwelling units
4.2.4.5. Not more than 30 L of flammable and combustible liquids, of which not more than 10 L shall be Class I liquids, are permitted to be stored in a dwelling unit.
Attached garages and sheds
4.2.4.6. Not more than 50 L of flammable and combustible liquids, of which not more than 30 L shall be Class I liquids, are permitted to be stored in a garage or shed attached to a dwelling unit.
Subsection 4.2.5.Mercantile Occupancies
Maximum quantities
4.2.5.1. (1) Except as provided in Sentence (5), the quantities of flammable and combustible liquids stored in mercantile occupancies shall not exceed those in Sentences (2) to (4).
(2) In unsprinklered mercantile occupancies, the maximum quantity of flammable and combustible liquids permitted to be stored in a single suite shall be the lesser of
(a) 8 L for every 1 m2 of the total area of the suite, provided that not more than 2 L per m2 is Class I liquid, of which not more than 0.3 L per m2 shall be Class IA, Class IB, or any combination of these 2 classes, or
(b) 8000 L, provided that not more than 2000 L is Class I liquid, of which not more than 300 L shall be Class IA or Class IB or any combination of these 2 classes.
(3) In sprinklered mercantile occupancies, the maximum quantity of flammable and combustible liquids permitted to be stored in a single suite shall be the lesser of
(a) 24 L for every 1 m2 of the total area of the suite, provided that not more than 6 L per m2 is Class I liquid, of which not more than 1 L per m2 shall be Class IA or Class IB or any combination of these 2 classes, or
(b) 24000 L, provided that not more than 6000 L is Class I liquid, of which not more than 1000 L shall be Class IA or Class IB or any combination of these 2 classes.
(4) For the purposes of calculating permissible quantities in Sentences (2) and (3), mercantile occupancies of less than 250 m2 floor area shall be assumed to be 250 m2 in area.
(5) Quantities of flammable and combustible liquids in excess of those permitted in Sentences (2) to (4) shall be kept in a storage area conforming to Subsection 4.2.7.
Containers
4.2.5.2. (1) Flammable and combustible liquids in mercantile occupancies shall be kept in closed containers.
(2) Closed containers of Class I and II liquids shall not be stacked more than 1.5 m high on floors, or 1 m high on individual fixed shelves.
(3) Class I liquids in closed containers are permitted to be stored in basements of mercantile occupancies.
Transfer
4.2.5.3. In mercantile occupancies, transfer of flammable or combustible liquids into containers shall only be permitted in a storage room conforming to Subsection 4.2.9.
Subsection 4.2.6.Business and Personal Services, Educational and Institutional Occupancies
Application
4.2.6.1. (1) This Subsection applies to the storage, handling and use of flammable and combustible liquids in business and personal services occupancies and institutional occupancies and shall include nonresidential schools, universities and colleges.
Storage cabinets and storage rooms
4.2.6.2. (1) Except as permitted in Article 4.2.6.3., flammable and combustible liquids shall be kept in closed containers and stored
(a) in cabinets conforming to Subsection 4.2.10., except that the total quantity of flammable and combustible liquids stored in such cabinets shall not exceed the quantity permitted for one cabinet, or
(b) in a room having no openings communicating directly with the public portions of the building and conforming to Subsection 4.2.9.
Maximum quantities
4.2.6.3. (1) Except as provided in Sentence (2), the storage of flammable and combustible liquids outside of a cabinet or room required in Article 4.2.6.2. is permitted, provided such storage does not exceed
(a) 10 L, including not more than 5 L of Class I liquid, in a single room, or
(b) 250 L, including not more than 60 L of Class II liquid, or 10 L of Class I liquid, in a single fire compartment having at least a 45-min fire separation.
(2) In automotive shop or industrial arts areas of an educational facility, storage of up to 75 L of flammable and combustible liquids, including not more than 25 L of Class I liquid, shall be permitted outside of a cabinet or room as specified in Article 4.2.6.2.
Containers
4.2.6.4. Where individual containers with a capacity of more than 5 L are required for storage of flammable or combustible liquids in a building, safety containers conforming to ULC/ORD-C30, “Safety Containers”, and of not more than 25 L capacity, shall be used.
Separation of dangerous goods
4.2.6.5. Flammable or combustible liquids stored in cabinets or rooms shall be separated from other dangerous goods in conformance with Article 4.2.2.3.
Subsection 4.2.7.Industrial Occupancies
Application
4.2.7.1. This Subsection applies to the storage offlammable and combustible liquids in closed containers in industrial occupancies.
Storage facilities
4.2.7.2. (1) Flammable and combustible liquids in industrial occupancies shall be stored
(a) in storage areas conforming to Article 4.2.7.5.,
(b) in rooms conforming to Subsection 4.2.9.,
(c) in cabinets conforming to Subsection 4.2.10., or
(d) in conformance with Subsection 4.2.8.
Fire compartments
4.2.7.3. Fire compartments regulated by this Subsection shall be separated from the remainder of the building by a fire separation having a fire-resistance rating of at least 2 hr.
Dispensing and transfer
4.2.7.4. (1) Except as permitted in Subsection 4.2.8. and in Sentence (2), the dispensing or transfer of Class I or II liquids shall be conducted in rooms conforming to Subsection 4.2.9.
(2) It is permitted to dispense or transfer Class I or II liquids in a storage area conforming to Article 4.2.7.5. provided
(a) the storage area does not exceed 100 m2, and
(b) the dispensing or transfer operations conform to the applicable requirements of Subsection 4.2.9.
Maximum quantities
4.2.7.5. (1) Except as provided in Sentence (2), the storage of flammable and combustible liquids in storage areas specified in Clause 4.2.7.2.(1)(a) shall
(a) conform to Table 4.2.7.A.
(i) where it consists of palletized or solid piled storage, or
(ii) where stored in racks in buildings not protected in conformance with Article 4.2.7.7., or
(b) conform to Table 4.2.7.B. where stored in racks in buildings protected in conformance with Article 4.2.7.7.
(2) Where a building is designed for the storage of flammable or combustible liquids, there is no limit on the total quantity of storage per fire compartment provided
(a) the building is separated from adjacent buildings by
(i) a firewall having a fire-resistance rating of at least 4 hr, or
(ii) spatial separation in conformance with the Building Code, and
(b) in protected rack storage, the quantities in each individual storage area do not exceed those specified in Table 4.2.7.B.
(3) Where containers for 2 or more liquids having different flash points are stored together in a single individual storage area, the maximum quantity permitted in the individual storage area shall equal that permitted for the liquid with the lowest flash point.
(4) When 2 or more classes of liquids are stored in a single fire compartment, the maximum quantity permitted for each class of liquid shall be calculated as follows:
qIA/QIA + qIB/QIB + qIC/QIC + qII/QII + qIIIA/QIIIA < 1
where
qIA,IB or IC |
= |
the actual quantity of Class IA, IB or IC liquid present |
qII |
= |
the actual quantity of Class II liquid present |
qIIIA |
= |
the actual quantity of Class IIIA liquid present |
QIA,IB or IC |
= |
the maximum quantity of Class IA, IB or IC liquid permitted in Table 4.2.7.A. or 4.2.7.B. for the arrangement |
QII |
= |
the maximum quantity of Class II liquid permitted in Table 4.2.7.A. or 4.2.7.B. for the arrangement |
QIIIA |
= |
the maximum quantity of Class IIIA liquid permitted in Table 4.2.7.A. or 4.2.7.B. for the arrangement |
TABLE 4.2.7.A.
Indoor Container Storage (Palletized or Solid Piled Storage and Unprotected Rack Storage)
Forming Part of Article 4.2.7.5.
Class of |
Storage Level |
Protected Storage (1) |
Unprotected Storage | ||||
Maximum Quantity |
Maximum Storage Height, m |
Maximum Quantity per Fire Compartment, L |
Maximum Quantity per I.S.A.(2), |
Maximum Storage Height, |
Quantity per Fire Compartment, L | ||
Class IA |
First Storey Storeys above the first storey Basement |
10000 7500 Not permitted |
1.5 1.5 Not permitted |
50000 30000 Not Permitted |
2500 2500 Not Permitted |
1.5 1.5 Not Permitted |
2500 2500 Not Permitted |
Class IBor IC |
First Storey Storeys above the first storey Basement |
20000 10000 Not permitted |
2.0 2.0 Not permitted |
60000 50000 Not Permitted |
10000 10000 Not Permitted |
1.5 1.5 Not Permitted |
10000 10000 Not Permitted |
Class II |
First Storey and storeys above the first storey Basement |
40000 25000 |
3.0 1.5 |
100000 25000 |
15000 Not Permitted |
3.0 Not Permitted |
30000 Not Permitted |
Class IIIA |
First Storey and storeys above the first storey Basement |
60000 40000 |
6.0 3.0 |
200000 100000 |
50000 Not Permitted |
4.5 Not Permitted |
100000
Not Permitted |
Notes to Table 4.2.7.A.:
(1)See Article 4.2.7.7.
(2)Individual Storage Area
TABLE 4.2.7.B.
Indoor Container Storage (Protected Rack Storage)(1) Forming Part of Article 4.2.7.5.
Class of Liquid |
Storage Level |
Maximum Height, m |
Maximum Quantity per Fire Compartment, L |
Class IA |
First Storey Storeys above the first storey Basement |
7.5 4.5 Not permitted |
30000 17000 Not permitted |
Class IBor IC |
First Storey Storeys above the first storey Basement |
7.5 4.5 Not permitted |
60000 35000 Not permitted |
Class II |
First Storey Storeys above the first storey Basement |
7.5 7.5 4.5 |
100000 100000 35000 |
Class IIIA |
First Storey Storeys above the first storey Basement |
12.0 6.0 6.0 |
200000 200000 100000 |
Notes to Table 4.2.7.B.:
(1) See Article 4.2.7.7.
Spill control
4.2.7.6. Measures to control spilled flammable or combustible liquids shall be provided in conformance with Subsection 4.1.6.
Fire suppression systems
4.2.7.7. (1) Where protection is required by this Part, storage areas for flammable and combustible liquids shall be
(a) sprinklered in conformance with NFPA 30, “Flammable and Combustible Liquids Code”, or
(b) protected by an automatic fire suppression system in conformance with an applicable standard listed in Sentence 6.8.1.1.(1).
Clearances
4.2.7.8. (1) The clearance between the top of storage and the lowest structural members, sprinkler head deflectors or other overhead fire protection system components shall be not less than 450 mm.
(2) A clearance of not less than 400 mm shall be maintained between stored flammable and combustible liquids and walls, except that where the width of storage adjacent to the wall is not more than 1.5 m, such wall clearance is not required.
Aisles
4.2.7.9. Except as provided in Article 4.2.7.10., main aisles, access aisles and aisles defining individual storage areas shall be in conformance with Article 3.2.2.2. of the National Fire Code 1995.
Separation from other dangerous goods
4.2.7.10. Flammable and combustible liquids shall not be stored with other dangerous goods unless in conformance with Article 4.2.2.3.
Separation from combustible products
4.2.7.11. Combustible materials, other than those used for the packaging of flammable or combustible liquids, shall not be stored in the same individual storage area with such liquids.
Absorbents
4.2.7.12. Absorbent materials shall be available in the storage area for use in clean-up of spilled flammable or combustible liquids in conformance with Article 4.1.6.3.
Ventilation
4.2.7.13. Storage areas described in Article 4.2.7.1. shall be ventilated in conformance with Subsection 4.1.7.
Subsection 4.2.8.Incidental Use
Application
4.2.8.1. Except as otherwise noted in this Part, this Subsection applies to industrial occupancies where the use, storage and handling of flammable or combustible liquids is secondary to the principal activity.
Maximum quantities
4.2.8.2. (1) Except as provided in Sentences (2) and (3) and in Article 4.2.8.4., the quantity of flammable and combustible liquids permitted to be located outside of storage rooms conforming to Subsection 4.2.7., 4.2.9. or 4.3.13., or storage cabinets conforming to Subsection 4.2.10., in any one fire compartment of a building, shall not be more than
(a) 600 L of flammable and combustible liquids in closed containers, of which not more than 100 L shall be Class IA liquids, and
(b) 5000 L of Class IB, IC, II and IIIA liquids in storage tanks or portable tanks.
(2) Where required for normal plant activity, quantities of flammable and combustible liquids are permitted to exceed those specified in Sentence (1), but shall not be greater than the supply for one day of normal operation.
(3) Where larger quantities than are permitted by Sentence (1) are required, such quantities shall be in storage tanks installed in conformance with Sentence 4.3.12.4.(2).
Handling
4.2.8.3. (1) Areas in which flammable or combustible liquids are transferred from one container or storage tank to another, or are used in such a way as to release potentially explosive concentrations of flammable vapours, shall be
(a) separated from possible sources of ignition by a spatial separation of not less than 6 m, or by a fire separation,
(b) provided with a drainage system to control spills in conformance with Subsection 4.1.6.,
(c) provided with absorbent materials to assist in clean-up of small liquid spills in conformance with Article 4.1.6.3.,
(d) provided with either natural or mechanical ventilation in conformance with Subsection 4.1.7., and
(e) separated from other dangerous goods in conformance with Article 4.2.2.3.
General storage areas
4.2.8.4. (1) In a general storage area covered in Subsection 3.2.3. of the National Fire Code 1995, quantities of flammable and combustible liquids are permitted to exceed those in Sentence 4.2.8.2.(1) provided the storage area is in conformance with Sentences (2) to (6).
(2) The storage area referred to in Sentence (1) shall be sprinklered in conformance with Article 3.2.3.3. of the National Fire Code 1995, providing a level of protection not less than that required for Class IV commodities stored up to a height of 6 m.
(3) The height of storage of flammable and combustible liquids shall be not more than those permitted for unprotected storage in Table 4.2.7.A.
(4) When a single class of liquid is stored, the total quantity in a single fire compartment shall be not more than
(a) 2500 L of Class IB and IC liquid,
(b) 5000 L of Class II liquid, or
(c) 10000 L of Class IIIA liquid.
(5) When 2 or more classes of liquid are stored in the same fire compartment, the total quantity permitted for each class of liquid shall be calculated as follows:
qI/2500 + qII/5000 + qIIIA/10000 < 1
where
qI |
= |
the actual quantity of Class IB and IC liquid present, |
qII |
= |
the actual quantity of Class II liquid present, |
qIIIA |
= |
the actual quantity of Class IIIA liquid present. |
(6) When 2 or more classes of liquid are stored in the same individual storage area, the maximum quantity permitted in the individual storage area shall be that permitted for the liquid with the lowest limit listed in Sentence (4).
Subsection 4.2.9.Rooms for Container Storage and Dispensing
Maximum quantities
4.2.9.1. (1) Except as provided in Sentences (2) and (3), where flammable and combustible liquids are stored in a room required in this Part, the storage densities averaged over the total room area and the total quantities of such liquids shall conform to Table 4.2.9.A.
(2) The maximum quantities and densities of flammable and combustible liquids shown in Table 4.2.9.A. are permitted to be doubled provided the storage room is protected by an automatic fire suppression system conforming to Article 4.2.7.7.
(3) The maximum quantities of Class I liquids in an unprotected storage room with a fire separation having a fire-resistance rating of not less than 2 hr shall
(a) not exceed those specified for unprotected storage in Table 4.2.7.A., and
(b) comply with Sentences 4.2.7.5.(3) and (4).
TABLE 4.2.9.A.
Rooms for Container Storage and Dispensing Forming Part of Article 4.2.9.1.
Maximum Quantity, L |
Minimum Fire Separation Around Room, hr |
Maximum Density, L/m2 |
1500 10000 |
1 2 |
100 200 |
Spill control
4.2.9.2. (1) Storage rooms referred to in Article 4.2.9.1. shall be equipped with
(a) liquid-tight seals between interior walls and the floor and a liquid-tight ramped sill at any door opening in an interior wall, and
(b) a drain connected to a dry sump or holding tank for those occupancies that are covered by the Regulations for Industrial Establishments and the Regulations for Health Care and Residential Facilities under the Occupational Health and Safety Act.
(2) Storage rooms referred to in Sentence (1) shall be designed to accommodate possible spills of flammable and combustible liquids in conformance with Subsection 4.1.6.
Ventilation
4.2.9.3. Storage rooms referred to in Article 4.2.9.1. shall be ventilated in conformance with Subsection 4.1.7.
Aisles
4.2.9.4. The contents of flammable and combustible liquids storage rooms referred to in Article 4.2.9.1. shall be arranged to provide aisle widths of not less than 1 m.
Dispensing
4.2.9.5. Dispensing of flammable or combustible liquids from containers having a capacity of more than 30 L shall be by pumps or through self-closing valves, designed in conformance with good engineering practice.
Explosion venting
4.2.9.6. (1) Except for the storage of distilled beverage alcohol, where Class IA or IB liquids are dispensed or stored in open containers within a storage room, the room shall be designed to prevent critical structural and mechanical damage from an internal explosion in conformance with NFPA 68, “Guide for Venting of Deflagrations”.
(2) Despite Sentence (1), where Class IA liquids are stored in closed containers or Class I liquids are dispensed or stored in open containers for those occupancies or facilities that are covered by the Regulations for Industrial Establishments and the Regulations for Health Care and Residential Facilities under the Occupational Health and Safety Act, the room shall be designed to prevent critical structural and mechanical damage from an internal explosion in conformance with NFPA 68, “Guide for Venting of Deflagrations”.
Portable extinguishers
4.2.9.7. Portable extinguishers shall be provided for storage rooms described in Article 4.2.9.1. in conformance with Section 6.2.
Egress doors
4.2.9.8. (1) This Article applies to a dispensing room in occupancies covered by the Regulations for Industrial Establishments and the Regulations for Health Care and Residential Facilities under the Occupational Health and Safety Act where the room
(a) has an area greater than 15 m2, or
(b) has a distance of travel greater than 4.5 meters from any point in the room to an egress doorway.
(2) A dispensing room shall be equipped with self-closing doors hinged to swing outward on their vertical axis.
(3) A dispensing room shall be located in a floor area that has at least two exits.
(4) A dispensing room shall have at least two egress doorways that are at least three-quarters of the maximum diagonal dimension of the room from each other.
(5) At least one egress doorway shall be located within 23 m from any point in the dispensing room.
Subsection 4.2.10.Cabinets for Container Storage
Containers
4.2.10.1. Flammable and combustible liquids stored in cabinets required in this Part shall be in closed containers conforming to Article 4.2.3.1.
Maximum quantity per cabinet
4.2.10.2. The maximum quantity of flammable and combustible liquids stored in a cabinet shall be 500 L, of which not more than 250 L shall be Class I liquids.
Maximum quantity per fire compartment
4.2.10.3. (1) Except as provided in Sentences (2) and (3), the total quantity of flammable and combustible liquids stored in cabinets in a single fire compartment shall not exceed the quantity permitted in Article 4.2.10.2. for 3 cabinets.
(2) In industrial occupancies, quantities of flammable and combustible liquids greater than those specified in Sentence (1) are permitted in a single fire compartment where
(a) the total quantity stored in a group of cabinets is not more than the quantity permitted for 3 cabinets, and
(b) the distance between groups of cabinets described in Clause (a) is not less than 30 m.
(3) In institutional occupancies, the total quantity of flammable and combustible liquids stored in cabinets in a single fire compartment shall not exceed the quantity permitted for one cabinet.
Labelling
4.2.10.4. Cabinets for container storage shall be labelled in conspicuous lettering to indicate that the cabinet contains flammable materials and that open flames must be kept away.
Storage cabinets
4.2.10.5. (1) Storage cabinets required in this Part shall
(a) conform to ULC-C1275, “Storage Cabinets for Flammable Liquid Containers”,
(b) conform to ULI 1275, “Flammable Liquid Storage Cabinets”,
(c) be Factory Mutual Research Approved, or
(d) be listed as meeting NFPA 30.
Ventilation
4.2.10.6. (1) When a storage cabinet required in this Part is provided with ventilation openings,
(a) the ventilation openings shall be sealed with materials providing fire protection at least equivalent to that required for the construction of the cabinet, or
(b) the cabinet shall be vented outdoors using vent piping providing fire protection at least equivalent to that required in Clause (a) for seals.
Subsection 4.2.11.Outdoor Container Storage
Quantities and clearances
4.2.11.1. (1) Except as provided in Sentence (2), the quantities and clearances for flammable and combustible liquids stored in containers in outdoor storage areas shall conform to Table 4.2.11.A.
(2) The clearances required in Sentence (1) do not apply where not more than 5000 L of flammable or combustible liquids are stored adjacent to a building on the same property, and
(a) the building is one storey in building height and used primarily for the storage or handling of flammable or combustible liquids, or
(b) the exposed wall has a fire-resistance rating of at least 2 hr and has no openings within 3 m of such outdoor storage.
TABLE 4.2.11.A.
Outdoor Container Storage Forming Part of Article 4.2.11.1.
Class of Liquid |
Maximum Total Quantity per Pile, L |
Minimum Distance Between Piles, m |
Minimum Distance to a Property Line or to a Building on the Same Property, m |
Class IA |
5000 |
1.5 |
6 |
Class IB or IC |
15000 |
1.5 |
6 |
Class II |
35000 |
1.5 |
6 |
Class IIIA |
85000 |
1.5 |
6 |
Mixed storage
4.2.11.2. Where 2 or more liquids with different flash points are stored outdoors in containers that form a single pile, the maximum total quantity permitted in the pile shall be equal to that permitted for the liquid with the lowest flash point.
Fire department access
4.2.11.3. An access route not less than 6 m wide, constructed in conformance with Subsection 3.2.5. of the Building Code, shall be provided in outdoor storage areas to permit the approach of fire department vehicles to within 60 m of any part of a pile.
Spill control
4.2.11.4. Outdoor storage areas for flammable or combustible liquids shall be designed to accommodate possible spillage in conformance with Subsection 4.1.6.
Fencing
4.2.11.5. (1) An outdoor area used for the container storage of flammable or combustible liquids shall be surrounded by a firmly anchored fence that is
(a) substantially constructed to discourage climbing and unauthorized entry,
(b) not less than 1.8 m high, and
(c) provided with gates that shall be locked when the storage area is not staffed.
SECTION 4.3TANK STORAGE
Subsection 4.3.1.Design, Construction and Use of Storage Tanks
Application
4.3.1.1. This Section applies to storage tanks for flammable and combustible liquids.
Atmospheric storage tanks
4.3.1.2. (1) Except as required in Sentences (2), (4), (6) and (8) and permitted in Sentences (3), (5) and (7) and in Section 4.9, atmospheric storage tanks shall be built in conformance with
(a) API 12B, “Bolted Tanks for Storage of Production Liquids”,
(b) API 12D, “Field Welded Tanks for Storage of Production Liquids”,
(c) API 12F, “Shop Welded Tanks for Storage of Production Liquids”,
(d) API 650, “Welded Steel Tanks for Oil Storage”,
(e) ULC-S601, “Shop Fabricated Steel Aboveground Horizontal Tanks for Flammable and Combustible Liquids”,
(f) CAN/ULC-S602, “Aboveground Steel Tanks for Fuel Oil and Lubricating Oil”,
(g) CAN/ULC-S603, “Steel Underground Tanks for Flammable and Combustible Liquids”,
(h) CAN/ULC-S603.1, “Galvanic Corrosion Protection Systems for Steel Underground Tanks for Flammable and Combustible Liquids,”
(i) CAN4-S615, “Reinforced Plastic Underground Tanks for Petroleum Products”,
(j) ULC-S630, “Shop Fabricated Steel Aboveground Vertical Tanks for Flammable and Combustible Liquids”,
(k) CAN/ULC-S643, “Shop Fabricated Steel Aboveground Utility Tanks for Flammable and Combustible Liquids”,
(l) ULC-S652, “Tank Assemblies for Collection of Used Oil”,
(m) ULC-S653, “Aboveground Steel Contained Tank Assemblies for Flammable and Combustible Liquids”,
(n) ULC/ORD-C58.10, “Jacketed Steel Underground Tanks for Flammable and Combustible Liquids”,
(o) ULC/ORD-C142.5, “Concrete Encased Steel Aboveground Tank Assemblies for Flammable and Combustible Liquids”,
(p) ULC-S655, “Aboveground Protected Tank Assemblies for Flammable and Combustible Liquids”, or
(q) ULC/ORD-C142.23, “Aboveground Waste Oil Tanks”.
(2) Tanks built in conformance with Clauses (1)(a), (b) and (c) shall be used only for the storage of crude petroleum at oil fields.
(3) When necessitated by possible contamination of the liquid to be stored or possible rapid corrosion of the tank, storage tanks need not conform to Sentence (1), provided that they are designed and built in conformance with good engineering practice for the material being used.
(4) Atmospheric storage tanks shall not be used for the storage of flammable or combustible liquids at temperatures at or above their boiling points.
(5) Existing aboveground atmospheric storage tanks in service that do not comply with Sentence (1) are permitted to remain in service provided that the tank
(a) is not leaking,
(b) has no dents in the tank greater than 30 degrees or 35 mm in depth from the normal configuration,
(c) has no pitting in excess of 3 mm, and
(d) has metal thickness of at least 50 per cent of the minimum permissible thickness specified in an applicable standard referenced in Sentence (1).
(6) Existing aboveground atmospheric storage tanks that do not comply with Sentence (1), (3), (5) or (9) shall be refurbished in conformance with Sentence 4.10.4.2.(3) or be replaced.
(7) Existing underground storage tanks in service that do not comply with Sentence (1) are permitted to remain in service provided that the tanks are not leaking and steel storage tanks and associated piping are protected from external corrosion in conformance with Subsection 4.3.9.
(8) Existing underground storage tanks that do not comply with Sentence (1), (3) or (7) shall be refurbished in conformance with Sentence 4.10.4.2.(3) or be replaced.
(9) Existing aboveground atmospheric storage tanks that comply to ULC/ORD-C142.16-1994, “Protected Aboveground Tank Assemblies for Flammable and Combustible Liquids” shall be deemed to comply with Clause (1)(p).
Low pressure storage tanks and pressure vessels
4.3.1.3. (1) Low pressure storage tanks shall be constructed in conformance with
(a) API 620, “Design and Construction of Large, Welded, Low-Pressure Storage Tanks”, or
(b) ANSI/ASME, “Boiler and Pressure Vessel Code”.
(2) Pressure vessels shall be constructed in conformance with CSA-B51, “Boiler, Pressure Vessel, and Pressure Piping Code”.
(3) Low pressure storage tanks and pressure vessels are permitted to be used as atmospheric storage tanks.
Operating pressure
4.3.1.4. The normal operating pressure of a storage tank shall not exceed its design pressure.
Corrosion protection
4.3.1.5. The exposed surface of every aboveground storage tank for flammable or combustible liquids which is fabricated of any ferrous substance shall be thoroughly coated with rust-resisting material compatible with the tank.
Floating roofs
4.3.1.6. Except for perimeter sealing material, floating roof assemblies or internal floating covers installed in storage tanks shall be constructed of metal, or other materials and design conforming to one of the tank construction standards listed in this Subsection.
Identification
4.3.1.7. A storage tankand its filling and emptying connections shall be identified in conformance with CPPI, “Using the CPPI Colour-Symbol System to Mark Equipment and Vehicles for Product Identification” or to CAN/CGSB-24.3, “Identification of Piping Systems”.
Overfill protection
4.3.1.8. (1) A storage tank shall be prevented from being overfilled by providing
(a) continuous supervision of the filling operations by personnel qualified to supervise such operations, or
(b) an overfill protection device conforming to ULC/ORD-C58.15, “Overfill Protection Devices for Flammable Liquid Storage Tanks”.
Subsection 4.3.2.Installation of Outside Aboveground Storage Tanks
Location
4.3.2.1. (1) Every outside aboveground storage tank for the storage of flammable or combustible liquids shall be located in conformance with Sentences (2) to (5) with respect to the property line and any building on the same property.
(2) Except as provided in Sentences (6) and (7), every aboveground storage tank containing stable liquids and having a working pressure of not more than 17 kPa (gauge) shall be separated from a property line and any building on the same property by distances
(a) half those in Table 4.3.2.A. where protection is provided against fire or explosion in the tank in conformance with Sentence 4.3.2.5.(2), or
(b) equal to those in Table 4.3.2.A. where protection referred to in Clause (a) is not provided.
(3) Every aboveground storage tank containing unstable liquids and having a working pressure of not more than 17 kPa (gauge) shall be separated from a property line and any building on the same property by distances
(a) equal to those in Table 4.3.2.A., but not less than 7.5 m, where protection is provided against fire or explosion in the tank in conformance with Sentence 4.3.2.5.(2), or
(b) 3 times those in Table 4.3.2.A., but not less than 15 m, where protection referred to in Clause (a) is not provided.
(4) Every aboveground storage tank containing boil-over liquids shall be separated from a property line and any building on the same property by distances
(a) 0.75 times those in Table 4.3.2.A. where protection is provided against fire or explosion in the tank in conformance with Sentence 4.3.2.5.(2), or
(b) equal to those in Table 4.3.2.A. where protection referred to in Clause (a) is not provided.
(5) Where a storage tank containing stable liquids or unstable liquids has a working pressure greater than 17 kPa (gauge), the distances from a property line and any building on the same property shall be those specified in Sentences (2) and (3) multiplied by 1.5, but shall be not less than 7.5 m.
(6) The minimum distance required in Sentence (2) from a storage tank containing only Class II or IIIA liquids to a building on the same property is permitted to be reduced to
(a) 1.5 m provided the tank capacity is not more than 50000 L, or
(b) zero provided the tank capacity is not more than 2500 L.
(7) The minimum distance required in Sentence (2) is permitted to be waived provided the storage tank
(a) is in conformance with ULC-S655, “Aboveground Protected Tank Assemblies for Flammable and Combustible Liquids”, and
(b) has a capacity of not more than 50000 L.
(8) Where end failure of horizontal storage tanks may endanger adjacent property, the tanks shall be placed with the longitudinal axis parallel to such property.
TABLE 4.3.2.A.
Location of Aboveground Storage Tanks Forming Part of Article 4.3.2.1.
Maximum Tank Capacity, L |
Minimum Distance to a Property Line or to a Building on the Same Property, m |
250000 |
3 |
500000 |
4.5 |
2500000 |
9 |
5000000 |
12 |
over 5000000 |
15 |
Spacing between storage tanks
4.3.2.2. (1) Except as required in Sentences (2) and (3) and in Article 4.3.2.3., the minimum distance between every combination of two aboveground storage tanks shall be 0.25 times the sum of their diameters, but shall be not less than 1 m.
(2) The minimum distance between any two storage tanks, neither of which has a capacity of more than 250000 L, shall be 1 m.
(3) Where either of the two aboveground storage tanks contains unstable liquids, the distance required in Sentences (1) and (2) shall be doubled.
Clearances from liquefied petroleum gas cylinders and tanks
4.3.2.3. (1) The minimum separation between a flammable or combustible liquid storage tank and a liquefied petroleum gas cylinder or tank shall be 6 m.
(2) Secondary containments for flammable or combustible liquid storage tanks shall not contain any liquefied petroleum gas cylinder or tank, and the centre line of the secondary containment wall shall be not less than
(a) 3 m away from a liquefied petroleum gas cylinder, and
(b) 7 m away from a liquefied petroleum gas storage tank.
Fire department access
4.3.2.4. (1) Except as provided in Sentences (2) and (3), storage tanks for flammable or combustible liquids shall be spaced so that each storage tank is accessible for fire fighting purposes.
(2) An access route constructed in conformance with Subsection 3.2.5. of the Building Code shall be provided in outdoor storage areas to permit the approach of fire department vehicles to within 60 m of any storage tank.
(3) Where fire fighting access to storage tanks containing Class I or II liquids is not provided, fire extinguishing measures conforming to Sentence 4.3.2.5.(2) shall be provided.
Fire protection systems
4.3.2.5. (1) Where the diameter of a storage tank exceeds 45 m, the storage tank shall be provided with protection against fire or explosion in conformance with Sentence (2).
(2) Protection against fire or explosion required for a storage tank shall consist of fixed protection systems designed in conformance with good engineering practice such as described in
(a) NFPA 11, “Low-Expansion Foam”,
(b) NFPA 15, “Water Spray Fixed Systems for Fire Protection”, and
(c) NFPA 69, “Explosion Prevention Systems”.
Leakage testing
4.3.2.6. At the time of installation, aboveground storage tanks and associated piping shall be tested for leakage in conformance with Subsections 4.3.15. and 4.4.6.
Subsection 4.3.3.Supports, Foundations and Anchorage for Aboveground Storage Tanks
Foundations and supports
4.3.3.1. (1) Storage tanks shall rest on the ground or on foundations, supports or piling made of concrete, masonry or steel in conformance with
(a) Appendix B of API 650, “Welded Steel Tanks for Oil Storage”, and
(b) Appendices C and D of API 620, “Design and Construction of Large, Welded, Low Pressure Storage Tanks”.
(2) Tank supports shall be installed on firm foundations designed to minimize uneven settling of the tank and to minimize corrosion of the part of the tank resting on the foundation.
(3) Except for steel saddles that are less than 300 mm high at their highest point, supports for storage tanks shall provide a fire-resistance rating of not less than 2 hr.
(4) Every aboveground storage tank shall be supported in a manner that will prevent the allowable design stress of the tank from being exceeded.
Earthquake protection
4.3.3.2. (1) In areas subject to earthquake forces, storage tanks, supports and connections shall be designed to resist such forces in conformance with
(a) Part 4 of the Building Code, and
(b) Appendix A of ULC-S630, “Shop Fabricated Steel Aboveground Vertical Tanks for Flammable and Combustible Liquids”.
Protection against flooding
4.3.3.3. When aboveground storage tanks are located in an area that may be subject to flooding, the tanks shall be securely anchored to prevent floating.
Subsection 4.3.4.Normal and Emergency Venting for Aboveground Storage Tanks
Design and installation
4.3.4.1. (1) Atmospheric and low pressure storage tanks shall be provided with normal and emergency venting in conformance with
(a) API 2000, “Venting Atmospheric and Low Pressure Storage Tanks”, or
(b) the appropriate tank design standard listed in Sentence 4.3.1.2.(1).
Unstable liquids
4.3.4.2. When unstable liquids are stored, the effects of heat or gas resulting from polymerization, decomposition, condensation or self-reactivity shall be allowed for in the determination of the total venting capacity.
Subsection 4.3.5.Vent Piping for Aboveground Storage Tanks
Materials and construction
4.3.5.1. Vent piping materials and construction shall conform to Section 4.4.
Location of vent pipe outlets
4.3.5.2. (1) Vent pipe outlets for storage tanks of Class I liquids
(a) shall be located outside buildings, not less than
(i) 3.5 m above the adjacent ground level, and
(ii) 1.5 m from any building opening, and
(b) shall discharge so that flammable vapours will not enter the building or be trapped near any part of the building.
(2) Vent pipe outlets for Class II or IIIA liquids shall discharge outside buildings, not less than
(a) 2 m above the adjacent ground level, and
(b) 1.5 m from any building opening.
Interconnection of vent piping
4.3.5.3. (1) Except as provided in Sentence (2), 2 or more storage tanks are permitted to be connected to a common vent pipe for normal relief venting provided the vent pipe size is designed to vent the combined vapours produced in the connected tanks without exceeding the allowable stresses of the tanks.
(2) Vent piping for storage tanks for Class I liquids shall not be connected to vent piping for storage tanks for Class II or IIIA liquids unless an effective arrangement is provided to prevent the vapours from the Class I liquids from entering the other tanks.
Subsection 4.3.6.Openings Other than Vents in Aboveground Storage Tanks
Provision of valves
4.3.6.1. Connections to aboveground storage tanks at any level below the highest level to which the liquid will rise shall be provided with valves located as close as practicable to the shell.
Materials
4.3.6.2. (1) Valves and their connections to a storage tank shall be made of steel, except that when the chemical characteristics of the liquid stored are incompatible with steel, materials other than steel are permitted to be used.
(2) Materials for valves and their connections to a storage tank shall be suitable for the pressures, stresses and temperatures that may be expected, including those of possible fire exposure.
Openings for liquid level measurements
4.3.6.3. Openings for measuring liquid levels in storage tanks for Class I liquids shall be equipped with caps or covers which shall be opened only when measuring the liquid level.
Connections for filling and emptying
4.3.6.4. (1) Except as provided in Sentence (3), connections used as part of normal operating conditions for filling or emptying storage tanks for flammable and combustible liquids shall be located
(a) outside buildings,
(b) at a location free of sources of ignition, and
(c) not less than 1.5 m from building openings.
(2) Connections for filling or emptying storage tanks shall be kept closed to prevent leakage when not in use.
(3) A filling connection described in Sentence (1) is permitted to be located inside a building where
(a) made necessary
(i) by a process or activity located indoors and to which the tank is directly associated, or
(ii) for the collection of used liquids, and
(b) the fill piping is provided with means to prevent flammable vapours from returning to the building.
Subsection 4.3.7.Secondary Containment for Aboveground Storage Tanks
General
4.3.7.1. (1) The area surrounding a storage tank or group of storage tanks shall be designed to accommodate accidental spillage in conformance with Subsection 4.1.6.
(2) Where barriers described in Sentence 4.1.6.1.(1) are provided to contain accidental spillage from above-ground storage tanks, they shall conform to the requirements for secondary containment in this Subsection.
(3) A storage tank conforming to Sentence 4.3.7.4.(2) shall be considered as conforming to this Subsection provided it is used and maintained in conformance with Articles 4.3.7.8. and 4.3.7.9.
Construction
4.3.7.2. (1) Except as provided in Sentence (2), the base and walls of a secondary containment shall be made of noncombustible materials, and shall be designed, constructed and maintained to
(a) withstand full hydrostatic head, and
(b) provide a permeability of not more than 10-6 cm/s to the flammable or combustible liquids contained in the storage tanks.
(2) Where a membrane provides the level of impermeability required in Sentence (1), the membrane shall
(a) conform to ULC/ORD-C58.9, “Secondary Containment Liners for Underground and Aboveground Flammable and Combustible Liquid Tanks”, and
(b) if combustible, be covered with a noncombustible material of such nature and thickness that the membrane will not fail when the secondary containment is exposed to fire.
(3) Except as provided in Sentence (4), openings shall not be permitted in a secondary containment.
(4) Where piping passes through a secondary containment, such passages shall conform to Sentences (1) and (2).
Capacity
4.3.7.3. (1) Except as permitted in Sentence (3), a secondary containment for a single storage tank shall have a volumetric capacity of not less than 110 per cent of the capacity of the tank.
(2) Except as permitted in Sentence (3), a secondary containment for more than one storage tank shall have a volumetric capacity of not less than the sum of
(a) the capacity of the largest storage tank located in the contained space, and
(b) 10 per cent of the greater of
(i) the capacity specified in Clause (a), or
(ii) the aggregate capacity of all other storage tanks located in the contained space.
(3) When the secondary containment is designed to prevent the entry of precipitation and water used for fire fighting purposes into the contained space, it shall have a volumetric capacity of not less than the capacity of the largest storage tank located in the contained space.
Clearances
4.3.7.4. (1) Except as provided in Sentence (2), no part of a secondary containment wall shall be less than 1.5 m from a storage tank shell.
(2) It is permitted to waive the distance required in Sentence (1) provided the storage tank
(a) is constructed in accordance with
(i) Clauses 4.3.1.2.(1)(l), (m), (o), (p) or (q), incorporating secondary containment, or
(ii) Clauses 4.3.1.2.(1)(e), (j) or (k) for double-walled storage tanks,
(b) has a capacity of not more than 50000 L, and
(c) is protected by posts or guardrails when exposed to collision damage.
Access to storage tanks and ancillary equipment
4.3.7.5. (1) A secondary containment shall permit
(a) access to storage tanks, valves and ancillary equipment,
(b) egress from the contained space, and
(c) access for fire fighting as specified in Article 4.3.2.4.
(2) Where a storage tank contains Class I liquids, provisions shall be made for the normal operation of valves and for access to the storage tank roof without entering the contained space created by the secondary containment when
(a) the average height of the secondary containment exceeds 3.5 m, measured from the ground level of the interior of the contained area, or
(b) the distance between the tank shell and the top inside edge of the secondary containment wall is less than the height of this wall.
Emergency venting
4.3.7.6. Where the secondary containment is not open to the atmosphere, emergency venting shall be provided to relieve any buildup of internal pressure in the contained space when exposed to heat or fire.
Leak detection
4.3.7.7. Where the contained space created by the secondary containment is not accessible for visual examination, a monitoring device shall be provided to indicate the presence of liquid in, or the loss of integrity of the secondary containment.
Drainage
4.3.7.8. (1) Liquids, debris and precipitation shall not be permitted to accumulate in the contained space created by the secondary containment.
(2) Provisions shall be made for removing liquid from the secondary containment in conformance with Subsection 4.1.6.
(3) Controls for the liquid removal system required in Sentence (2) shall be
(a) normally closed,
(b) accessible under fire exposure conditions, and
(c) located so they can be operated from outside the contained space.
Use of secondary containment
4.3.7.9. The contained space created by a secondary containment shall not be used for storage purposes.
Subsection 4.3.8.Installation of Underground Storage Tanks
Location
4.3.8.1. (1) Underground storage tanks shall be located so that
(a) foundations of existing buildings will not be undermined during excavation, and
(b) loads from building foundations and supports are not transmitted to the tank.
(2) Underground storage tanks shall be located not less than
(a) 600 mm from adjacent tanks,
(b) 1 m from a building or street line, and
(c) 1.5 m from other property lines.
Ground cover
4.3.8.2. (1) Except as required in Sentences (2) to (4), underground storage tanks shall be installed with not less than 600 mm of ground cover over the tank.
(2) Except as required in Sentence (3), storage tanks subject to vehicular traffic shall be installed not less than 1 m below finished ground level.
(3) Either a 150 mm reinforced concrete slab or a 200 mm unreinforced concrete slab over not less than 450 mm of sand is permitted in lieu of the protection described in Sentence (2) provided the slab extends at least 300 mm beyond the storage tank.
(4) Where subsurface conditions make it impractical to install a storage tank totally below adjacent ground level, an underground storage tank shall be installed so that at least
(a) 75 per cent of its mass is below adjacent ground level provided there is not less than 600 mm of ground cover over the portion of the tank above adjacent ground level, or
(b) 50 per cent of its mass is below adjacent ground level provided there is not less than 1 m of ground cover over the portion of the tank above adjacent ground level.
Damage repair
4.3.8.3. (1) Underground storage tanks in the process of being installed shall be inspected, and any damage to the protective coating or anodes shall be repaired before they are lowered into the excavation.
(2) Damage to storage tank shells shall not be repaired on site.
Damage prevention
4.3.8.4. (1) Underground storage tanks shall be lowered into the excavation by the use of lifting lugs and hooks and, where necessary, spreader bars to prevent damage to the protective coating.
(2) Any method of handling that may result in damage to the protective coating of the tank shall not be used.
Installation
4.3.8.5. (1) Underground steel storage tanks shall be installed in conformance with Appendix B of CAN/ULC-S603.1, “Galvanic Corrosion Protection Systems for Steel Underground Tanks for Flammable and Combustible Liquids”.
(2) Underground reinforced plastic storage tanks shall be installed in conformance with Appendix A of CAN4-S615, “Reinforced Plastic Underground Tanks for Petroleum Products”.
(3) Underground storage tanks shall not be placed in direct contact with reinforced concrete slabs but shall be separated by not less than 150 mm of sand or other suitable material to distribute evenly the weight of the tank on the supporting base.
Leakage testing
4.3.8.6. (1) At the time of installation, underground storage tanks and associated piping shall be tested for leakage in conformance with Subsections 4.3.15. and 4.4.6.
Filling
4.3.8.7. (1) Flammable or combustible liquids shall not be placed in an underground storage tank until
(a) the fill pipe and vent line have been installed in the tank, and
(b) all other openings have been sealed.
Spillage
4.3.8.8. If a spillage occurs, the escaped liquid and all soil contaminated by the spill shall be removed in conformance with Subsection 4.1.6.
Anchorage
4.3.8.9. (1) Where a high water table is anticipated, underground storage tanks shall be protected against uplift due to hydrostatic forces when the tanks are empty.
(2) Where anchors and ground straps are used to resist uplift forces referred to in Sentence (1), they shall be
(a) electrically isolated from the tank, and
(b) installed in such a manner that they do not damage the protective coating on the tank.
Subsection 4.3.9.Corrosion Protection of Underground Steel Storage Tanks
Corrosion protection
4.3.9.1. (1) Except as provided in Sentence (2), underground steel storage tanks and associated piping and fittings subject to corrosion shall be protected in conformance with CAN/ULC-S603.1, “Galvanic Corrosion Protection Systems for Steel Underground Tanks for Flammable and Combustible Liquids”.
(2) A steel storage tank not conforming to Sentence (1) is permitted provided
(a) it conforms to ULC/ORD-C58.10, “Jacketed Steel Underground Tanks for Flammable and Combustible Liquids”, or
(b) it has corrosion protection conforming to good engineering practice such as described in PACE Report No. 87-1, “Impressed Current Method of Cathodic Protection of Underground Petroleum Storage Tanks”, published by the Canadian Petroleum Products Institute.
Subsection 4.3.10.Vents for Underground Storage Tanks
Vent design
4.3.10.1. Underground storage tanks shall be provided with vent openings and piping of sufficient cross-sectional area designed to vent the tanks during the maximum filling or withdrawal rate without causing the allowable stress for the tank to be exceeded.
Materials and construction
4.3.10.2. Vent piping materials and construction shall conform to Section 4.4.
Installation
4.3.10.3. (1) Vent pipe outlets from underground storage tanks for Class I liquids shall
(a) be located outside buildings higher than the fill pipe openings but not less than
(i) 3.5 m above the adjacent ground level,
(ii) 1.5 m from any building opening, and
(iii) 7.5 m from any dispenser, and
(b) discharge so that flammable vapours will not enter building openings or be trapped near any part of the building.
(2) Vent pipes from underground storage tanks for Class II or IIIA liquids shall be located outside buildings at a height that is above the fill pipe opening but not less than 2 m above finished ground level.
(3) Vent pipes from underground storage tanks for flammable or combustible liquids shall not be obstructed by any device that may cause excessive back pressure, except that vent pipes from underground storage tanks for Class II or Class IIIA liquids are permitted to be fitted with return bends, coarse screens or other devices to minimize the entry of foreign material.
(4) Vent piping shall enter the storage tank through the top of the tank and shall not extend into the tank more than 25 mm except when the vent is equipped with a vent alarm.
(5) Vent piping shall be
(a) installed so that any nominally horizontal run shall slope towards the storage tank,
(b) constructed without traps,
(c) adequately supported to prevent sagging, and
(d) where necessary, protected against mechanical damage.
Interconnection of vent pipes
4.3.10.4. (1) Except as permitted in Sentence (2), where vent piping connects 2 or more storage tanks, pipe sizes shall be designed to vent the combined vapours produced in the connected underground storage tanks without exceeding the allowable stresses of the tanks when being filled simultaneously.
(2) Where it is not possible to fill the connected storage tanks referred to in Sentence (1) simultaneously, or where the connected vents have a vapour recovery system, the vent piping shall be sized to accommodate the maximum vapour flow possible in the system.
(3) Vent piping for an underground storage tank containing a Class I liquid shall not be connected to the vent piping for a storage tank containing a Class II or IIIA liquid unless an effective method is provided to prevent the vapours from the Class I liquid storage tank from entering the other tank.
Subsection 4.3.11.Openings Other than Vents in Underground Storage Tanks
Connections
4.3.11.1. Connections for all openings in underground storage tanks shall be liquid and vapour tight.
Openings for measuring liquid level
4.3.11.2. Openings for measuring liquid levels in underground storage tanks if independent of the fill pipe shall be equipped with a vapour-tight cap or cover which shall be opened only when measuring the liquid level.
Fill piping and discharge piping
4.3.11.3. (1) Fill piping and discharge piping shall enter underground storage tanks only through the top of the tank and discharge piping used in suction systems shall be sloped toward the storage tanks.
(2) Remote fill outlets from an underground storage tank shall not be located higher than other outlets from the tank.
(3) Except as provided in Sentence (5), connections used as part of normal operating conditions for filling or emptying storage tanks for flammable and combustible liquids shall be located
(a) outside buildings,
(b) at a location free of sources of ignition, and
(c) not less than 1.5 m away from building openings.
(4) Connections for filling or emptying storage tanks described in Sentence (3) shall be kept closed to prevent leakage when not in use.
(5) A filling connection described in Sentence (3) is permitted to be located inside a building where
(a) made necessary
(i) by a process or activity located indoors and to which the tank is directly associated, or
(ii) for the collection of used liquids, and
(b) the fill piping is provided with means to prevent flammable vapours from returning to the building.
Subsection 4.3.12.Installation of Storage Tanks Inside Buildings
Occupancy
4.3.12.1. Except as provided in Article 4.3.12.2., storage tanks shall not be permitted in other than industrial occupancies.
Stationary combustion engines
4.3.12.2. Installations using Class I liquids as fuel supplies for stationary engines inside buildings shall conform to NFPA 37, “Stationary Combustion Engines and Gas Turbines”.
Maximum static head
4.3.12.3. The static head imposed on a storage tank inside a building shall not exceed 70 kPa (gauge) at the bottom of the tank when the vent or fill pipe is filled with liquid unless the tank is designed for greater pressures.
Maximum quantities and location
4.3.12.4. (1) Except as provided in Subsection 4.2.8. and in Sentence (2), storage tanks for flammable or combustible liquids shall be
(a) located in dedicated rooms conforming to Subsection 4.3.13., and
(b) located in conformance with Table 4.3.12.A.
(2) When quantities greater than are permitted for incidental use in Subsection 4.2.8. are required for special process operations, storage tanks for flammable or combustible liquids are permitted to be located outside of a storage room referred to in Sentence (1), provided that
(a) total quantities per fire compartment are not more than one-half the quantities permitted in Table 4.3.12.A.,
(b) they are located on the first storey, and
(c) the installation conforms to Articles 4.3.12.7. to 4.3.12.10. and Article 4.3.13.4.
(3) Table 4.3.12.A. does not apply to the storage of distilled beverage alcohol.
TABLE 4.3.12.A.
Indoor Tank Storage Forming Part of Article 4.3.12.4.
Class of Liquid |
Storage Level |
Maximum Quantity per Storage Room(1)-, L, One or More Tanks | |
Protected(2) |
Unprotected Storage | ||
Class I |
First Storey Storeys above the first storey Basement |
40000 7500 Not permitted |
25000 Not Permitted Not Permitted |
Class II and IIIA |
First Storey Storeys above the first storey Basement |
200000 20000 20000 |
100000 Not Permitted Not Permitted |
Notes to Table 4.3.12.A.:
(1) See Subsection 4.3.13.
(2) See Article 4.2.7.7.
Fire compartments
4.3.12.5. Fire compartments regulated by this Subsection shall be separated from the remainder of the building by a fire separation having a fire-resistance rating of not less than 2 hr.
Mixed storage
4.3.12.6. (1) When 2 or more classes of liquids are stored in a single storage room referred to in Sentence 4.3.12.4.(1), the total quantity permitted for each class of liquid shall be calculated as follows:
qI/QI + qII+IIIA/QII+IIIA < 1
where
qI |
= |
the actual quantity of Class I liquid present, |
qII+IIIA |
= |
the actual quantity of Class II and IIIA liquid present, |
QI |
= |
the maximum quantity of Class I liquid permitted in Table 4.3.12.A., |
QII+IIIA |
= |
the maximum quantity of Class II and IIIA liquid permitted in Table 4.3.12.A. |
Storage tanks outside storage rooms
4.3.12.7. (1) Where storage tanks for flammable or combustible liquids are located outside of storage rooms conforming to Subsection 4.3.13.,
(a) provision shall be made to contain 100 per cent of the volume of the largest storage tank, or to drain away spilled flammable or combustible liquids in conformance with Subsection 4.1.6.,
(b) all electrical equipment and wiring in the vicinity of the storage tank and the exterior vent shall be installed in conformance with Subsection 4.1.4., and
(c) the floor area in which the storage tank is located shall be ventilated in conformance with Subsection 4.1.7.
Vents
4.3.12.8. (1) Except as provided in Sentence (2), normal and emergency vents for storage tanks in buildings shall be provided in conformance with
(a) Subsections 4.3.4. and 4.3.5. and the applicable requirements in Subsection 4.3.10., or
(b) good engineering practice for emergency venting of storage tanks inside buildings.
(2) The use of weak roof-to-side shell seams, designed to rupture before the allowable design stress of the storage tank is reached, shall not be permitted as a means of emergency venting of storage tanks inside buildings.
Supports, foundations and anchorage
4.3.12.9. (1) Except as provided in Sentence (2), where storage tanks for flammable or combustible liquids are installed inside buildings, the supports, foundations and anchorage for such storage tanks shall be in conformance with Subsection 4.3.3.
(2) Where a storage tank is suspended, rather than supported on a foundation, supports shall be designed and installed in conformance with good engineering practice.
Bonding and grounding
4.3.12.10. (1) Where storage tanks for flammable or combustible liquids are installed inside buildings, tanks, piping and discharge equipment shall be bonded and grounded.
Subsection 4.3.13.Rooms for Storage Tanks
Design and construction
4.3.13.1. (1) Rooms for storage tanks inside buildings shall be
(a) separated from the rest of the building by a fire separation having a fire-resistance rating of at least 2 hr,
(b) designed to contain 100 per cent of the volume of the largest storage tank, or to drain away spilled flammable or combustible liquids in conformance with Subsection 4.1.6.,
(c) made liquid-tight where the walls join the floor,
(d) provided with natural or mechanical ventilation in conformance with Subsection 4.1.7., and
(e) used for no other purposes than the storage and handling of flammable or combustible liquids.
Clearances
4.3.13.2. A minimum clear space of 550 mm shall be maintained between the walls of a room described in Article 4.3.13.1. and the sides of any storage tanks within the room.
Explosion venting
4.3.13.3. Where Class IA or IB liquids are dispensed within a storage room, the room shall be designed to prevent critical structural and mechanical damage from an internal explosion in conformance with NFPA 68, “Guide for Venting of Deflagrations”.
Hose stations and portable extinguishers
4.3.13.4. (1) In buildings not required to be equipped with a standpipe system by the Building Code, hose stations conforming to Articles 3.2.9.2. to 3.2.9.7. of Ontario Regulation 403/97, as it read on August 21, 2000, shall be provided in the vicinity of the storage room, such that all parts of the room are within reach of a hose stream.
(2) Portable extinguishers for Class B fires shall be provided in conformance with Section 6.2.
Placards
4.3.13.5. (1) Placards conforming to the Transportation of Dangerous Goods Regulations (Canada) shall be posted in a conspicuous location outside the room containing storage tanks.
(2) Placards shall identify the
(a) liquids stored as flammable or combustible liquids, and
(b) capacities of the storage tanks.
(3) Despite Clause 2(a), where storage consists of a single product, placards that identify the liquid using the UN Product Identification Number (PIN) shall be acceptable.
(4) Despite Clause 2(a), where storage consists of multiple products within the same class, placards that identify the class of liquids as per the Transportation of Dangerous Goods Regulations (Canada) shall be acceptable.
(5) Despite Clause 2(a), where storage consists of more than one class of liquid, placards that indicate the danger symbol as per the Transportation of Dangerous Goods Regulations (Canada) or individual placards for each class of liquid as per the Transportation of Dangerous Goods Regulations (Canada) shall be acceptable.
(6) Rooms for storage tanks and the information described in Sentence (2) shall be identified in the fire safety plan required in Article 4.1.5.6.
Subsection 4.3.14.Openings Other than Vents in Storage Tanks in Buildings
Connections
4.3.14.1. (1) Connections for all openings in storage tanks in buildings shall be liquid and vapour-tight.
(2) Connections to storage tanks through which liquid can flow shall be provided with valves located as close as practical to the tank.
Openings for liquid level measurement
4.3.14.2. (1) Openings that are independent of the fill pipe and are used for measuring the liquid level in storage tanks containing Class I or II liquids shall be equipped with a vapour-tight cap which shall be opened only when measuring the liquid level.
(2) Openings referred to in Sentence (1) shall be protected against overflow and vapour pressure by means of a spring-loaded check valve.
Subsection 4.3.15.Leakage Testing of Storage Tanks
Leakage testing
4.3.15.1. (1) Every storage tank shall be tested for leakage in conformance with Sentences (2) to (4)
(a) whenever a leak is suspected, and
(b) at the time of installation
(i) before backfilling in the case of an underground tank, or
(ii) before filling or putting into service in the case of an aboveground tank.
(2) When a leakage test is required by Sentence (1) on an aboveground storage tank, it is permitted to determine the source of leakage
(a) by a visual examination of the tank shell, and
(b) where the bottom is not amenable to such examination, by testing the bottom of the tank in conformance with Sentence (3).
(3) Except as provided in Articles 4.3.15.4. and 4.3.15.5., when a leakage test is required by Sentence (1) on an underground storage tank, it shall be done by qualified personnel using equipment conforming to
(a) ULC/ORD-C58.12, “Leak Detection Devices (Volumetric Type) for Underground Flammable Liquid Storage Tanks”,or
(b) ULC/ORD-C58.14, “Nonvolumetric Leak Detection Devices for Underground Flammable Liquid Storage Tanks”.
(4) Where field test methods are included in the tank construction standards referred to in Articles 4.3.1.2. and 4.3.1.3., such tests shall be permitted for storage tanks conforming to those standards.
Retention of records
4.3.15.2. Records of tests referred to in Article 4.3.15.1. shall be retained for examination by the Chief Fire Official, in conformance with Article 1.1.2.1.
Remedial action
4.3.15.3. (1) When a leak is detected in a storage tank by a leakage test required in this Subsection or by a leakage detection measure required in Subsection 4.3.16.,
(a) the storage tank shall
(i) be replaced, in the case of an underground tank, or
(ii) be repaired or replaced in the case of an aboveground tank, and
(b) the escaped liquid shall be removed in conformance with Article 4.1.6.3.
(2) The Chief Fire Official shall be notified within 24 hr of detection of a leak referred to in Sentence (1).
Pneumatic leakage tests
4.3.15.4. (1) Pneumatic leakage tests shall not be performed on field-erected aboveground storage tanks.
(2) Pneumatic leakage tests shall not be performed on storage tanks with flammable or combustible liquids in the tanks.
(3) Where a pneumatic leakage test is performed on an underground storage tank, the tank shall be considered to be leaking when the test indicates a pressure drop within a 2 hr period after steady temperature conditions have been established and the source of pressure has been removed.
(4) Pneumatic test pressures applied to underground storage tanks shall be measured by an instrument calibrated in increments of not more than 1 kPa.
(5) Where a pneumatic leakage test is conducted before an underground tank is backfilled in the case of a new tank, or after the tank is uncovered in the case of a previously installed tank, the test pressure shall be in conformance with the production testing requirements of
(a) CAN/ULC-S603, “Steel Underground Tanks for Flammable and Combustible Liquids”, or
(b) CAN4-S615, “Reinforced Plastic Underground Tanks for Petroleum Products”.
(6) Where a pneumatic leakage test is performed on a completely buried storage tank, the test pressure shall be not less than 35 and not more than 70 kPa (gauge).
(7) Measures shall be taken to guard against the hazards associated with pneumatic leakage testing where explosive mixtures of vapours from flammable or combustible liquids and air may be present in the area of a tank that has been in use.
Liquid media leakage tests
4.3.15.5. (1) Where a leakage test incorporating a liquid test medium, including a flammable or combustible liquid, is performed on an underground storage tank, the tank shall be considered to be leaking when, with compensation for volume differentials caused by effects of temperature and tank shell distortion, the test indicates a liquid loss.
(2) The pressure at the bottom of a storage tank shall not exceed 70 kPa (gauge) during the leakage test referred to in Sentence (1).
Subsection 4.3.16.Leakage Detection of Storage Tanks
Liquid level measurements
4.3.16.1. (1) Except as provided in Article 4.3.16.2., the liquid level in any storage tank shall be measured at intervals not greater than 7 days in conformance with Sentences (2) to (4), except that at fuel dispensing stations the measurements shall be taken each day the station is in operation.
(2) The level of water at the bottom of an underground storage tank shall be measured at intervals not greater than 7 days, except that at fuel dispensing stations the measurement shall be taken each day the station is in operation.
(3) A comparison of the measurements described in Sentences (1) and (2) with meter readings and a computation of any gain or loss of liquid shall be done each time a required measurement is taken.
(4) A record for each storage tank showing the measurements and computations described in Sentence (3) shall be retained for examination by the Chief Fire Official, in conformance with Article 1.1.2.1.
Continuous leakage detection
4.3.16.2. (1) The measurements described in Article 4.3.16.1. are not required for an underground storage tank when
(a) it is provided with a continuous leakage detection device conforming to
(i) ULC/ORD-C58.12, “Leak Detection Devices (Volumetric Type) for Underground Flammable Liquid Storage Tanks”, or
(ii) ULC/ORD-C58.14, “Nonvolumetric Leak Detection Devices for Underground Flammable Liquid Storage Tanks”, and
(b) its associated underground piping is provided with continuous leakage detection conforming to Article 4.4.6.7.
Corrective action
4.3.16.3. (1) Immediate corrective action shall be taken in conformance with Subsection 4.3.15. when
(a) a loss of liquid or a gain of water is indicated by any of the leakage detection measures described in Articles 4.3.16.1. and 4.3.16.2., or
(b) the level of water at the bottom of an underground storage tank exceeds 50 mm.
SECTION 4.4PIPING AND TRANSFER SYSTEMS
Subsection 4.4.1.Scope
Application
4.4.1.1. (1) This Section applies to piping and transfer systems for flammable and combustible liquids.
(2) Except where otherwise stated in this Part, this Section does not apply to
(a) tubing or casings and piping for oil or gas wells,
(b) piping for vehicles, aircraft, watercraft and portable or stationary engines,
(c) piping systems in fuel dispensing stations and distilleries,
(d) piping systems on piers and wharves, and
(e) piping within the scope of the applicable provincial boiler and pressure vessel codes.
Subsection 4.4.2.Materials for Piping, Valves and Fittings
Materials
4.4.2.1. (1) Materials for piping systems containing flammable or combustible liquids shall be suitable for the maximum anticipated working pressures and operating temperatures and for the chemical properties of the contained liquid.
(2) Except as provided in Sentence (3), the use of
(a) materials that are subject to failure from internal stress or rupture by mechanical damage, or
(b) combustible or low-melting-point materials that are subject to failure in fires
shall not be permitted for piping systems referred to in Sentence (1).
(3) Non-metallic piping systems are permitted to be used for underground installations provided they conform to
(a) ULC/ORD-C107.7, “Glass Fibre Reinforced Plastic Pipe and Fittings for Flammable Liquids”, or
(b) ULC/ORD-C107.4, “Ducted Flexible Underground Piping Systems for Flammable and Combustible Liquids”.
(4) Except as provided in Sentence (5), where steel piping is used, it shall conform to
(a) API 5L, “Line Pipe”,
(b) ASTM A 53, “Pipe, Steel, Black and Hot-Dipped, Zinc-Coated, Welded and Seamless”, or
(c) CSA Z245.1, “Steel Line Pipe”.
(5) Where service pressures exceeding 875 kPa (gauge) may occur, piping and fittings shall be designed in conformance with ANSI/ASME B31.3, “Chemical Plant and Petroleum Refinery Piping”.
Special materials
4.4.2.2. Where problems of corrosion, contamination or sanitation or standards of purity require special materials, it is permitted to use non-metallic materials for piping, valves and fittings in conformance with Article 4.1.1.5.
Subsection 4.4.3.Corrosion Protection of Piping Systems
Corrosion protection
4.4.3.1. (1) Except as provided in Sentence (2), all exposed and underground piping, valves, couplings, flanges and bolts for flammable or combustible liquids shall be protected where necessary against external corrosion.
(2) Underground steel piping, valves and fittings shall be protected against corrosion in conformance with
(a) CAN/ULC-S603.1, “Galvanic Corrosion Protection Systems for Steel Underground Tanks for Flammable and Combustible Liquids”, or
(b) good engineering practice such as described in PACE Report No. 87-1, “Impressed Current Method of Cathodic Protection of Underground Petroleum Storage Tanks”, published by the Canadian Petroleum Products Institute.
Subsection 4.4.4.Identification of Piping Systems
Identification
4.4.4.1. (1) Pipelines for flammable or combustible liquids shall be marked with the contents of the line, and these markings shall be maintained in a clearly legible form.
(2) Piping for flammable or combustible liquids shall not be painted red.
(3) Transfer points in piping systems for flammable and combustible liquids shall be identified in conformance with CPPI, “Using the CPPI Colour-Symbol System to Mark Equipment and Vehicles for Product Identification”, or to CAN/CGSB-24.3, “Identification of Piping Systems”.
Plans
4.4.4.2. (1) Plans showing piping systems for flammable or combustible liquids, including tank and pumping arrangements, shall be available to the fire department on request.
(2) Sets of plans shall be kept at 2 separate locations.
Subsection 4.4.5.Joints in Piping Systems
Threaded joints
4.4.5.1. Threaded joints in piping systems for flammable or combustible liquids shall be made using joint compound or polytetrafluoroethylene tape conforming to CAN/ULC-S642, “Compounds and Tapes for Threaded Pipe Joints”.
Welded piping
4.4.5.2. (1) Welding of piping for flammable or combustible liquids shall conform to Section 5.17 and to
(a) API 1104, “Welding Pipelines and Related Facilities”, or
(b) API RP 1107, “Recommended Pipeline Maintenance Welding Practices”.
(2) Flanged joints for piping shall be provided in welded systems at intervals which will facilitate dismantling and avoid subsequent in-place cutting and welding operations.
Flanged joints
4.4.5.3. (1) Except as permitted in Sentence (2), flanged joints for piping shall be made with forged or cast steel flanges designed, constructed and installed in conformance with ANSI/ASME B16.5, “Pipe Flanges and Flanged Fittings”.
(2) Bronze flanges for 50 mm diameter or smaller size piping referred to in Article 4.4.5.2. are permitted to be used where copper and brass piping is permitted.
Bolting materials
4.4.5.4. Bolting materials for flanged connections in steel piping systems for flammable or combustible liquids shall be of alloy steel equivalent to ASTM A 193/A 193M, “Alloy-Steel and Stainless Steel Bolting Materials for High Temperature Service”, Grade B-7.
Gaskets
4.4.5.5. Gaskets in flanged connections shall be of a material resistant to the liquid being carried and capable of withstanding temperatures of at least 650°C without damage that would impair its function.
Subsection 4.4.6.Leakage Testing of Piping Systems
Leakage testing
4.4.6.1. (1) Piping systems including those at fuel dispensing stations shall be tested for leakage in conformance with Sentences (2) and (3)
(a) whenever a leak is suspected, and
(b) at the time of installation
(i) before backfilling in the case of underground piping, or
(ii) before putting into service in the case of exposed piping.
(2) Exposed piping systems in service are permitted to be visually inspected for leakage in conformance with Article 4.4.11.5.
(3) When exposed piping systems are subjected to a pneumatic leakage test,
(a) it shall be in conformance with Article 4.4.6.4., and
(b) the piping, including the joints, shall be soaped to assist in the detection of leaks.
Retention of records
4.4.6.2. Records of the pressure tests on piping systems shall be retained for examination by the Chief Fire Official, in conformance with Article 1.1.2.1.
Remedial action
4.4.6.3. If a leak is detected in a piping system during the leakage test, the piping system shall be repaired or replaced and the escaped liquid shall be removed in conformance with Subsection 4.1.6.
Pneumatic leakage tests
4.4.6.4. (1) Piping systems referred to in Sentence 4.4.6.1.(3) shall be considered to be leaking when the test indicates a pressure drop or a volume loss within a 2 hr period after steady temperature conditions have been established and the source of pressure had been removed.
(2) Pressure measurements referred to in Sentence (1) shall be obtained by using instruments calibrated in increments of not more than
(a) 4 kPa for test pressures up to 700 kPa (gauge), and
(b) 1 per cent of the test pressure where it exceeds 700 kPa (gauge).
Test pressures
4.4.6.5. (1) Except as provided in Sentences (2) and (3) and Article 4.4.6.6., piping systems shall be pressure tested at pressures of not less than 350 kPa (gauge) or 1.5 times the maximum operating pressure, whichever is greater.
(2) Test pressures exceeding 700 kPa (gauge) shall not be permitted except when the piping system is designed for such pressures.
(3) Where test pressures exceed the design pressures for pumps or similar components included in the piping system being tested, such pumps or components shall be isolated from the remainder of the system.
Class I liquids as a test medium
4.4.6.6. Class I liquids shall not be used for pressure testing piping systems, except that pressure piping normally containing Class I liquids is permitted to be tested with such liquids at pressures not exceeding their maximum operating pressures.
Leakage detection
4.4.6.7. When an underground piping system is provided with continuous leakage detection, it shall be in conformance with ULC/ORD-C107.12, “Line Leak Detection Devices for Flammable Liquid Piping”.
Subsection 4.4.7.Location and Arrangement of Piping
Location
4.4.7.1. (1) Piping shall be installed outdoors whenever possible and located so it will not create a hazard to buildings or equipment.
(2) Where piping for flammable or combustible liquids is installed within a building, the length of piping shall be as direct and as short as practicable.
Supports for aboveground outdoor piping
4.4.7.2. (1) Aboveground outdoor piping shall be supported and arranged to prevent excessive vibration and stress on equipment connected to it.
(2) When vehicular impact or physical damage is possible, protective guarding devices shall be provided for piping referred to in Sentence (1) and for fill pipes for storage tanks.
Arrangement of aboveground outdoor piping
4.4.7.3. (1) Aboveground outdoor piping shall not be located
(a) on the exterior of walls except on those of noncombustible construction, or
(b) above windows and doors.
(2) Aboveground outdoor piping shall not be located above roofs except above roofs of impermeable and noncombustible construction, with provision for accidental spillage provided in conformance with Subsection 4.1.6.
(3) Where aboveground piping crosses roadways or railway sidings, ample overhead clearance and warning signs indicating the clearance height shall be provided.
(4) Piping passing through secondary containment walls shall be designed to prevent excessive stress resulting from settlement or fire exposure.
Underground piping
4.4.7.4. (1) Underground piping shall be located so it will not be damaged as a result of vibrations or settling of an adjacent building or structure.
(2) Underground piping shall be located not less than 300 mm away from the foundations of any building or structure, except where such piping enters the building as permitted in Article 4.4.7.7.
(3) Piping passing under railway tracks shall be installed in conformance with CTC 1977-3 RAIL, Pipe Crossings Under Railways (No. E-10) Regulations, of Transport Canada.
(4) Piping adjacent to railway tracks shall be installed in conformance with General Order No. O-32, Flammable Liquids Bulk Storage Regulations, of Transport Canada.
Installation of underground piping
4.4.7.5. (1) Underground piping shall be
(a) supported on undisturbed or compacted soil, and
(b) backfilled on the top and sides with not less than
(i) 300 mm of pea gravel or clean crushed stone, or
(ii) 300 mm of clean sand, free of cinders and stones and compacted in layers not more than 300 mm thick.
(2) Where it is not practicable to support piping as required in Sentence (1) on undisturbed soil, it shall be supported on not less than 150 mm of clean sand, pea gravel or washed, crushed stone.
Piping in service tunnels
4.4.7.6. Piping for flammable or combustible liquids shall not be located in service tunnels that are used for pedestrian traffic.
Piping at entrances to buildings
4.4.7.7. (1) Piping for flammable or combustible liquids shall be located aboveground where the piping enters a building.
(2) Piping referred to in Sentence (1) shall be provided with inside and outside shut-off valves.
(3) Where piping referred to in Sentence (1) passes through a wall which would restrict the expansion or contraction of the piping, pipe sleeves shall be provided at the wall penetration to facilitate such movement.
Indoor piping
4.4.7.8. (1) Indoor piping for flammable or combustible liquids shall either be supported overhead or be located in trenches conforming to Article 4.4.7.9.
(2) Piping referred to in Sentence (1) shall not be installed under combustible flooring.
Piping in trenches
4.4.7.9. (1) Where indoor piping for flammable or combustible liquids is installed in trenches, a trapped drainage system conforming to Subsection 4.1.6. shall be provided.
(2) When piping referred to in Sentence (1) contains Class I liquids, the trench shall be
(a) provided with positive ventilation to the outdoors, or
(b) designed to prevent the accumulation of flammable vapours.
Overhead piping
4.4.7.10. (1) Overhead piping for flammable or combustible liquids shall be installed close to the ceiling or beams or along wall not less than 1.8 m above the floor to protect it against mechanical damage.
(2) Where practical, overhead piping referred to in Sentence (1) shall be supported from building framing members.
(3) In buildings of steel frame construction, piping referred to in Sentence (1) shall be fastened to steel beams or columns by pipe hangers attached to the flanges.
(4) Piping under concrete ceilings shall be suspended with the use of through bolts or expansion shields.
Supports for overhead piping
4.4.7.11. (1) Piping shall be supported on pipe hangers or other supports so that allowable stresses in the pipe are not exceeded.
(2) Anchors of the expansion shield type used to suspend piping shall not be used to suspend piping from unsound or lightweight concrete or from gypsum assemblies.
Protection of pipe risers
4.4.7.12. (1) Exposed pipe risers shall be protected against mechanical damage by
(a) installing such risers
(i) adjacent to walls or pilasters,
(ii) between flanges of steel columns, or
(iii) within securely anchored larger perforated pipe, and
(b) providing mechanical guards where the risers are exposed to mobile equipment.
Provision for expansion and contraction
4.4.7.13. (1) In the design of flammable or combustible liquid piping systems, provision shall be made for thermal expansion and contraction.
(2) Flexible hose connectors conforming to CAN/ULC-S633, “Flexible Underground Hose Connectors for Flammable and Combustible Liquids”, are permitted to be used where necessary in systems carrying flammable or combustible liquids to prevent excessive stresses resulting from vibration, settling or temperature changes.
Subsection 4.4.8.Valves in Piping Systems
Design
4.4.8.1. (1) Except as provided in Sentences (2), (3) and (4), valves in piping systems for flammable or combustible liquids shall be designed to accommodate the temperatures and pressures of those systems and shall conform to ULC-C842, “Valves for Flammable and Combustible Liquids”.
(2) Every hose nozzle valve shall conform to CAN/ULC-S620, “Hose Nozzle Valves for Flammable and Combustible Liquids”.
(3) Every emergency valve shall conform to CAN/ULC-S651, “Emergency Valves for Flammable and Combustible Liquids”.
(4) Existing valves shall be deemed to comply with Sentences (1), (2) and (3), provided they are
(a) not leaking, and
(b) constructed of material that is in conformance with Article 4.4.2.1.
Shut-off valves
4.4.8.2. (1) Shut-off valves shall be provided in all flammable or combustible liquid piping and pumping systems.
(2) Where practical, valves referred to in Sentence (1) shall be located outdoors or be immediately accessible from outdoors.
(3) Except as permitted in Sentence (4), steel shut-off valves shall be provided
(a) at connections to all aboveground storage tanks,
(b) on supply piping where it enters buildings or structures,
(c) on branch lines from the main supply line,
(d) on supply lines at dispensing locations, and
(e) to isolate one part of a piping system from another.
(4) Stainless steel, monel metal or lined steel bodied valves are permitted to be used when special conditions warrant their use.
Diaphragm valves
4.4.8.3. Diaphragm valves shall have no direct connections between the liquid and air sections that might permit leakage of the liquid past the packing into the air lines.
Globe valves
4.4.8.4. Globe valves shall be arranged so that the packing is on the low pressure side.
Indicating valves
4.4.8.5. Rising stem or other indicating valves shall be used where necessary to determine whether the valves are open or shut.
Meters
4.4.8.6. Where cast iron meters are used, they shall be isolated by the use of steel valves.
Identification
4.4.8.7. (1) All valves shall be identified in conformance with CPPI, “Using the CPPI Colour-Symbol System to Mark Equipment and Vehicles for Product Identification”, or to CAN/CGSB-24.3-92, “Identification of Piping Systems”.
(2) Every identification tag shall be kept clean so that its colour and inscription are easily recognizable.
Subsection 4.4.9.Heating of Piping Systems
Design
4.4.9.1. Heating equipment for piping systems containing flammable or combustible liquids shall be designed not to overheat or create an ignition source for the liquids being heated.
Steam heating
4.4.9.2. (1) Flammable and combustible liquid piping is permitted to be heated by steam lines provided the minimum steam temperature and pressure to make the liquid fluid are used and Sentences (2) and (3) are complied with.
(2) A pressure regulator shall be provided in the steam line with a relief valve on the downstream side of the regulator.
(3) Piping and steam lines shall be enclosed in insulation conforming to the Building Code.
Electrical heating cables
4.4.9.3. Electrical heating cables including electrical induction heating, shall conform to Subsection 4.1.4.
Thermal electrical conduction heating
4.4.9.4. (1) Thermal electrical conduction heating conforming to Sentence (2) is permitted to be used by passing a low-voltage alternating current through the pipe.
(2) Systems permitted in Sentence (1) shall be installed and tested as complete units and
(a) unheated sections of piping shall be isolated from heated sections by means of nonconductive fittings,
(b) thermostatic controls, high temperature limit controls and fuses shall have the lowest practical rating to ensure satisfactory operation,
(c) all parts of the piping and fittings shall be enclosed by insulting coverings of a type which will prevent accidental grounding of the systems, and
(d) switches, transformers, contactors and other spark-producing equipment shall be located in an area not subject to flammable vapours.
(3) Upon completion of the installation, systems permitted in Sentence (1) shall be tested to ensure that all components are functioning as intended.
Open flames
4.4.9.5. (1) Except as permitted in Sentence (2), the use of open flames as a heat source shall not be permitted for heating piping for flammable or combustible liquids.
(2) Use of open flames shall be permitted for heating piping for flammable or combustible liquids, when such operations are carried out in furnaces or ovens conforming to NFPA 86, “Ovens and Furnaces”.
Subsection 4.4.10.Methods of Transfer in Piping Systems
Location of outdoor pumps
4.4.10.1. (1) Pumps for flammable or combustible liquid piping systems installed aboveground and outside of buildings shall be located not less than
(a) 3 m from the property line, and
(b) 1.5 m from building openings.
Pump houses and pump rooms
4.4.10.2. (1) Pumps located indoors shall be in rooms that conform to Subsection 4.2.9.
(2) Pump houses and pump rooms shall not be used for any purpose other than to serve the pumping equipment.
Pits
4.4.10.3. (1) Pits for subsurface pumps for piping systems or for piping connected to submersible pumps shall be designed to withstand the forces to which they may be subjected without causing damage to the system.
(2) Pits provided in conformance with Sentence (1) shall not be larger than necessary for inspection and maintenance and shall be provided with a cover.
Control switches
4.4.10.4. Pumps for piping systems shall be provided with duplicate control switches to shut down the pumps in case of emergency, with one located in the operating area and the other at a remote location.
Hydraulic transfer systems
4.4.10.5. (1) Where flammable or combustible liquids are transferred by water pressure as a result of displacement, such system shall not be used for liquids that are miscible in water.
(2) All pressure vessels for hydraulic transfer systems referred to in Sentence (1) shall be constructed, installed and tested in conformance with ANSI/ASME, “Boiler and Pressure Vessel Code”.
(3) Hydraulic transfer systems referred to in Sentence (1) shall be designed to prevent water pressure in excess of the design pressure of the tank or piping.
(4) Operating pressures shall be controlled by a constant-level float valve or a pressure regulating valve on the water supply side of the hydraulic transfer system referred to in Sentence (1).
(5) Hydraulic transfer systems referred to in Sentence (1) shall be arranged so that there is no water pressure on the system except when liquid is being discharged.
(6) Check valves shall be provided for both water and flammable or combustible liquid piping to prevent back-flow in hydraulic transfer systems referred to in Sentence (1).
Inert gas transfer systems
4.4.10.6. (1) Where flammable or combustible liquids are transferred as a result of displacement by the expansion of nitrogen, carbon dioxide or other inert gases, all pressure vessels involved shall be constructed, installed and tested in conformance with ANSI/ASME, “Boiler and Pressure Vessel Code”.
(2) Pressure regulators for inert gas transfer systems referred to in Sentence (1) shall be provided in the gas line to control the pressure of the gas at the minimum pressure required to force the liquid through the piping system at the required rate.
(3) A relief valve with a slightly higher setting than the pressure required in Sentence (2) shall be provided on the downstream side of the regulator or on the tank.
(4) Means of automatically shutting off the gas supply and bleeding the gas pressure in the event of fire shall be provided on all inert gas transfer systems referred to in Sentence (1).
Non-inert gas transfer
4.4.10.7. (1) Except as permitted in Sentence (2), the transfer of flammable or combustible liquids in a closed piping system by means of compressed air or other non-inert gas pressure shall not be permitted.
(2) A non-inert gas pressure is permitted to be used in a closed piping system referred to in Sentence (1) provided
(a) it is the vapour or gas of the flammable or combustible liquid being transferred, or
(b) it is a vapour or gas that will not support combustion reaction and is non-reactive with the flammable or combustible liquid being transferred.
Subsection 4.4.11.Operating Procedures for Piping Systems
Procedures
4.4.11.1. Standard procedures for normal operations and for emergencies shall be given in printed form to all employees engaged in the operation of equipment for the transfer of flammable and combustible liquids and shall be posted or readily available for convenient reference.
Training
4.4.11.2. (1) All employees concerned with transfer operations involving flammable or combustible liquids shall be trained in
(a) the emergency procedures referred to in Article 4.4.11.1.,
(b) the importance of constant attendance during all loading or unloading operations,
(c) extinguishing procedures for fires involving flammable and combustible liquids, and
(d) the flammable and combustible liquid colour coding and identification system required in Article 4.4.8.7.
(2) Employees engaged in the operation of equipment for the transfer of flammable or combustible liquids shall be trained in the location, function and operation of valves used for the operation of fire protection equipment and manual emergency shut-off valves.
Emergency valves
4.4.11.3. Signs indicating the location of valves used for the operation of fire protection equipment and manual emergency shut-off valves shall be posted in conspicuous locations.
Portable extinguishers
4.4.11.4. One 80BC rated portable extinguisher or two 40BC units or four 20BC units shall be provided in the vicinity of pumps and ancillary equipment used for the transfer of flammable or combustible liquids.
Visual inspections
4.4.11.5. (1) A visual inspection routine for the prompt detection of obviously abnormal conditions shall be established and shall be performed at least once each shift.
(2) A visual inspection shall be made at least once during each day of operation of all aboveground piping systems, pumps and other ancillary equipment, to detect leakage, and any such leakage shall be repaired as quickly as practical.
(3) Where necessary, flammable vapour indicators shall be used to detect leakage.
(4) Open flames and spark-producing devices shall not be used for leakage detection referred to in Sentence (2).
Operational tests
4.4.11.6. To ensure proper operation, frequent inspections and tests shall be made of all safety shut-off valves and other fire safety devices, with particular attention directed to normally open, fusible-link operated valves, float valves and automatic controls.
Maintenance
4.4.11.7. (1) Except as provided in Sentence (6), maintenance shall not be carried out on piping systems while they are under pressure.
(2) If connections or piping are to be opened, the system shall be drained of flammable and combustible liquids.
(3) Where equipment for handling flammable or combustible liquids has to be repaired, it shall be removed and taken to maintenance areas when possible.
(4) Tags shall be attached to all valves on piping systems that are shut off for maintenance purposes to indicate that such valves are not to be opened.
(5) Piping that has been used for the transfer of flammable or combustible liquids shall be removed or capped when it is no longer intended to be used.
(6) Connections to pressurized piping systems shall be made in conformance with good practice such as described in
(a) API RP 1107, “Recommended Pipeline Maintenance Welding Practices”,
(b) API 2200, “Repairs to Crude Oil, Liquefied Petroleum Gas and Products Pipelines”, or
(c) API 2201, “Welding or Hot Tapping on Equipment Containing Flammables”.
SECTION 4.5FUEL DISPENSING STATIONS
Subsection 4.5.1.Scope
Application
4.5.1.1. (1) This Section applies to the storage, handling and use of flammable and combustible liquids at fuel dispensing stations except for any property or facility regulated by the Gasoline Handling Act.
(2) Except as provided in this Section, the storage and dispensing of Class 2.1 flammable gases at fuel dispensing stations shall conform to
(a) Fuels Safety Branch Standard CNG No 1, “Compressed Natural Gas Storage, Handling and Utilization”, Nov 20, 1990, and
(b) the Propane Storage, Handling and Utilization Code made under the Energy Act.
Subsection 4.5.2.Storage and Handling
Outside aboveground storage tanks
4.5.2.1. (1) Except as provided in Sentences (2) and (3), the installation of outside aboveground storage tanks at fuel dispensing stations shall be in conformance with Subsection 4.3.2.
(2) Outside aboveground storage tanks at fuel dispensing stations shall have an individual capacity of not more than 50000 L, and their aggregate capacity shall not exceed 150000 L.
(3) Outside aboveground storage tanks at fuel dispensing stations shall be provided with
(a) physical protection against collision damage,
(b) measures to prevent unauthorized access to the storage tank and its ancillary equipment, and
(c) measures to contain accidental spillage in conformance with Subsection 4.3.7.
Class I liquids in buildings
4.5.2.2. (1) Except as provided in Sentence 4.1.8.4.(2), Class I liquids shall not be stored or handled within a fuel dispensing station unless the building conforms to Subsection 4.2.9.
(2) Class I liquids shall not be stored or handled within any building having a basement, cellar or pit in which flammable vapours may accumulate.
(3) Facilities for the dispensing of Class I liquid fuels shall not be installed
(a) above any space intended for occupancy, or,
(b) in any building, except that this requirement does not apply to a canopy which is open on not less than 75 per cent of its perimeter.
Storage tanks in buildings
4.5.2.3. (1) Where Class IIIA liquids are stored and dispensed inside buildings from storage tanks, the individual tanks shall have a capacity of not more than 2500 L and the aggregate capacity of all the tanks shall not exceed 10000 L.
(2) All fill pipes, vent piping and valves associated with the storage tanks referred to in Sentence (1) shall
(a) conform to Subsections 4.3.5. and 4.3.6., and
(b) be permanently marked to indicate the liquid in each tank and the equipment controlled by the valves.
Marine fuel dispensing stations
4.5.2.4. Dispensers at marine fuel dispensing stations shall be at a location which will permit safe access by watercraft.
Containers
4.5.2.5. (1) All packaged flammable and combustible liquid products stored or sold at a fuel dispensing station shall be in closed containers conforming to Article 4.2.3.1. and distinctly marked with the generic name of the liquid they contain.
(2) At fuel dispensing stations, every container for dispensing flammable or combustible liquids shall be kept tightly closed when disconnected from its pumping apparatus.
(3) Every container referred to in Sentence (2) that is equipped with a pump shall have a vapour-tight connection between the pump and the container.
Empty containers
4.5.2.6. The storage of empty containers which previously contained flammable or combustible liquids shall conform to Sentences 4.5.2.2.(1) and (2) and 4.5.2.5.(2).
Filling of containers
4.5.2.7. Containers shall not be filled beyond their safe filling level.
Piping
4.5.2.8. All piping for flammable or combustible liquids at a fuel dispensing station shall be in conformance with Article 4.4.2.1.
Corrosion protection for piping
4.5.2.9. All piping, valves and fittings at a fuel dispensing station shall be protected against corrosion in conformance with Article 4.4.3.1.
Piping supports and guards
4.5.2.10. Piping shall be firmly supported and protected by installing guards when necessary to prevent vehicle impact or other mechanical damage.
Pits
4.5.2.11. Pits for subsurface pumps or for piping connected to submersed pumps shall conform to Article 4.4.10.3.
Subsection 4.5.3.Dispensing Systems
Dispensers
4.5.3.1. Fixed dispensers for flammable or combustible liquids shall conform to CSA-B346, “Power-Operated Dispensing Devices for Flammable Liquids”.
Location
4.5.3.2. (1) Fixed dispensers for Class I liquids shall be installed outside buildings and not less than
(a) 3 m from any right-of-way and any property line,
(b) 3 m from any propane gas dispenser,
(c) 1.5 m from any natural gas dispenser,
(d) 6 m horizontally from any fixed source of ignition, and
(e) 3 m from any building opening, except those openings in buildings for the shelter of operating personnel in which electrical installations conform to Article 4.1.4.1.
(2) Fixed dispensers for Class II or IIIA liquids are permitted to be installed inside a building where
(a) the building is not open to public,
(b) the dispensers are located on the first storey,
(c) drainage is provided in conformance with Subsection 4.1.6., and
(d) ventilation is provided in conformance with Subsection 4.1.7. and with the requirements for storage garages in Part 6 of the Building Code.
Protection against collision damage
4.5.3.3. (1) Fixed dispensers shall be protected against collision damage by
(a) a concrete island not less than 100 mm high, or
(b) posts or guardrails.
Subsection 4.5.4.Shut-Off Devices
Location and identification
4.5.4.1. (1) Devices to shut off the power to all dispensers shall be provided at a remote location or shielded from any fire that might occur in the dispensing area.
(2) The shut-off devices required in Sentence (1) shall be clearly identified and easily accessible.
Self service outlets
4.5.4.2. (1) Except as provided in Sentence (2), an emergency shut-off switch to stop all dispensers at self-service outlets shall be located at the central control console described in Sentence 4.5.8.2.(2) so that it is readily accessible to the attendant.
(2) At card or key activated self-service outlets, the emergency shut-off switch required in Sentence (1) shall be readily accessible to the customer.
Marine fuel dispensing stations
4.5.4.3. At marine fuel dispensing stations, a readily accessible valve shall be provided in each pipeline at or within 7.5 m of the pier to shut off the supply from shore.
Subsection 4.5.5.Delivery Hose and Nozzles
Delivery hose
4.5.5.1. (1) Delivery hose shall conform to CAN/ULC-S612, “Hose for Flammable and Combustible Liquids”.
(2) Except as permitted in Sentences (3) and (4), hose through which flammable or combustible liquids are dispensed at a fuel dispensing station shall be restricted to a maximum extended length of 4.5 m.
(3) Where a retracting mechanism is used, a maximum extended length of 6 m shall be permitted.
(4) At marine fuel dispensing stations or at card or key activated dispensers, the length of extended hose is permitted to exceed the values in Sentences (2) and (3).
Hose nozzle valves
4.5.5.2. (1) Every hose nozzle valve through which a Class I or II liquid is dispensed by a motorized dispenser into a vehicle tank shall
(a) be automatic closing as required in Sentence (2), and
(b) conform to CAN/ULC-S620, “Hose Nozzle Valves for Flammable and Combustible Liquids”.
(2) Except as provided in Sentence (3) to (5), a hose nozzle valve shall be constructed so that the valve
(a) can be kept open only by the continuous application of manual pressure, or
(b) is equipped with a hold-open device that is an integral part of the nozzle which will
(i) allow automatic dispensing,
(ii) automatically shut off when the vehicle tank is filled, and
(iii) shut off if the nozzle is dropped or falls from the fill pipe.
(3) A hose nozzle valve at a marine fuel dispensing station shall be of the type without a hold-open device, in conformance with Clause (2)(a).
(4) When a hose nozzle valve with a hold-open device is used at an attended self-service outlet, a break-away coupling conforming to CAN/ULC-S644, “Emergency Breakaway Fittings for Flammable and Combustible Liquids”, shall be provided.
(5) When the flow of liquid can be stopped other than by the hose nozzle valve, a hose nozzle valve with a hold-open device is permitted to be used only if it is provided with a device that will automatically close the hose nozzle valve upon a drop of pressure in the dispensing hose.
Subsection 4.5.6.Remote Pumping Systems
Application
4.5.6.1. This Subsection applies to systems for dispensing flammable or combustible liquids where such liquids are transferred from bulk storage to individual or multiple dispensers by pumps located elsewhere than at the dispensers.
Pumps and control equipment
4.5.6.2. (1) Pumps, including associated control equipment, shall be designed so that the system will not be subject to pressures above the design working pressure.
(2) Pumps shall be securely anchored and protected against damage from vehicles.
Emergency valves
4.5.6.3. (1) An emergency valve conforming to CAN/ULC-S651, “Emergency Valves for Flammable and Combustible Liquids”, shall be installed in the supply line so that the shear point of the valve is at a level not higher than the base of the dispenser nor more than 25 mm below it.
(2) The emergency valve required in Sentence (1) shall be maintained in operating condition and serviced at intervals not greater than 12 months.
Pump location
4.5.6.4. (1) Pumps installed aboveground and outside buildings shall be located not less than
(a) 3 m from any property line, and
(b) 1.5 m from any building opening.
(2) When an outside pump location is impractical, pumps are permitted to be installed inside buildings as provided in Article 4.5.2.2. or in pits as provided in Article 4.5.2.11.
Leakage testing
4.5.6.5. After the completion of the installation, including paving, all underground piping connected to tanks shall be tested for leakage in conformance with Subsection 4.4.6.
Marine fuel dispensing stations
4.5.6.6. (1) Except as permitted in Sentence (2), tanks and pumps not integral with the dispenser at marine fuel dispensing stations shall be located on the shore or on a pier of the solid-fill type.
(2) Where shore locations would result in excessively long supply lines to the dispenser, storage tanks are permitted to be installed on a pier provided that
(a) the applicable portions of Subsection 4.3.7. relating to spacing, secondary containment and piping are complied with, and
(b) the quantity stored does not exceed 5000 L aggregate capacity.
(3) No storage tank at a marine fuel dispensing station shall be located closer than 4.5 m horizontally from the normal annual high-water mark.
(4) Storage tanks located on shore and supplying marine fuel dispensing stations are permitted to be located aboveground where rock or a high water table make underground tanks impractical.
(5) Where storage tanks at a marine fuel dispensing station are at an elevation above the dispenser, an electrically operated solenoid valve, designed to open only when the dispenser is being operated, and to prevent gravity draining of the tank in the event of a rupture of the supply line to the dispenser, shall be provided at the storage tank outlet, positioned adjacent to and outside the valve specified in Article 4.3.6.1.
(6) Piping between storage tanks located on shore and dispensers at a marine fuel dispensing station shall conform to Section 4.4, except that where dispensing is from a floating structure, it is permitted to use suitable lengths of flexible hose designed in conformance with good engineering practice between the piping on shore and the piping on the floating structure.
Subsection 4.5.7.Spill Control
Spill control
4.5.7.1. Areas where flammable or combustible liquids are dispensed shall be designed to accommodate accidental spillage in conformance with Subsection 4.1.6.
Subsection 4.5.8.Supervision and Dispensing Procedures
Attendants
4.5.8.1. (1) Except as provided in Sentence (2), every fuel dispensing station shall have at least one attendant on duty when the station is open for business.
(2) Fuel dispensing stations which do not serve the general public do not require an attendant.
(3) Except as permitted at self-service outlets, a qualified attendant shall be in constant control of the dispensing of Class I and II liquids into the fuel tanks of motor vehicles or watercraft or into containers.
(4) Duties of attendants and fuel dispensing procedures, as stated in Articles 4.5.8.5. and 4.5.8.6., shall be posted at every fuel dispensing station.
Self-service outlets
4.5.8.2. (1) Instructions for the operation of dispensers in self-service outlets shall be posted in a conspicuous location.
(2) A control console shall be provided at self-service outlets within 25 m of all dispensers so that the attendant has an unobstructed view of all units at the same time.
(3) The control console referred to in Sentence (2) shall be equipped to regulate the operation of each dispenser.
(4) A 2-way communication system between the control console and each pump island shall be provided at self-service outlets.
(5) At fuel dispensing stations which provide both attended service and self-service, the attendant required in Sentence 4.5.8.1.(1) is permitted to dispense flammable or combustible liquids at the attended service island, provided that
(a) each island has an emergency shut-off switch as described in Article 4.5.4.2., and
(b) the attendant is never more than 25 m from the self-service island or control console.
Special dispensers
4.5.8.3. Except as provided in Article 4.5.8.4. for card or key activated equipment, special dispensers including coin operated, card operated and preset units, shall not be permitted at self-service outlets unless there is at least one qualified attendant on duty for each 12 hoses which can be operated simultaneously while the outlet is open to the public.
Card or key activated dispensers
4.5.8.4. (1) Card or key activated dispensers are permitted at unattended self-service outlets and fuel dispensing stations that are not open to the general public, in conformance with Sentences (2) to (6).
(2) Except as provided in Sentences (3) to (6), installation of card or key activated dispensers shall conform to the requirements for self-service outlets and fuel dispensing stations in this Section.
(3) Access to card or key activated dispensers shall be restricted to persons authorized by the supply agent to possess a card or key to operate the dispensers.
(4) Clearly legible operating instructions, visible at all times, shall be posted at every dispenser island.
(5) A telephone or other clearly identified means to notify the fire department shall be provided in a location readily accessible to the user.
(6) Emergency instructions, including the telephone number for the local fire department, shall be conspicuously posted to advise the user, in the event of a spill or accident,
(a) to use the emergency shut-off switch required in Article 4.5.4.2., and
(b) to call the fire department.
Duties of attendants
4.5.8.5. (1) Attendants on duty at fuel dispensing stations shall
(a) supervise the dispensing of flammable and combustible liquids,
(b) activate the controls to permit the dispensing of fuel at an individual dispenser only after the customer at the unit is ready to activate the nozzle,
(c) prevent the dispensing of flammable and combustible liquids into containers not conforming to Article 4.2.3.1.,
(d) take appropriate measures to prevent sources of ignition from creating a hazard at the dispensers,
(e) take appropriate action in the event of a spill to reduce the risk of fire, and
(f) shut off the power to all dispensers in the event of a spill or fire.
(2) In addition to the requirements in Sentence (1), attendants on duty at marine fuel dispensing stations shall
(a) activate the controls to permit the dispensing of fuel at an individual dispenser only after all ports and hatches on the watercraft have been closed, and
(b) ensure that containers for flammable and combustible liquids,
(i) are not filled beyond their safe filling level, and
(ii) are filled only after they have been removed from the watercraft.
Fuel dispensing procedures
4.5.8.6. (1) Except as provided in Sentence (2), flammable and combustible liquids shall not be dispensed into the fuel tank of a motor vehicle or watercraft while its engine is running.
(2) It is permitted to dispense a Class II or IIIA liquid into the fuel tank of a motor vehicle while its engine is running provided it is dispensed not less than 6 m away from any Class I liquid dispenser.
(3) Class I and II liquids shall not be dispensed at a fuel dispensing station into the fuel tank of a motor vehicle while any part of the motor vehicle or any vehicle attached to it is on a street.
(4) Every person dispensing flammable and combustible liquids shall
(a) take precautions to prevent overflow or spillage of the liquid being dispensed,
(b) not knowingly overfill the fuel system,
(c) subject to Article 4.5.8.5., in the event of spillage immediately apply an absorbent material to soak up the spillage in conformance with Article 4.1.6.3.,
(d) not dispense Class I or II liquids in proximity to open sources of ignition, and
(e) not use any object or device that is not an integral part of the hose nozzle valve assembly to maintain the flow of fuel.
Sources of ignition
4.5.8.7. Smoking or any other source of ignition shall not be permitted within 3 m of a dispenser at a fuel dispensing station.
Signs
4.5.8.8. (1) At least one weather-resistant sign conforming to Sentences (2) to (4) shall be provided for each dispenser in a location visible to every driver approaching the dispenser.
(2) The sign required in Sentence (1) shall indicate that smoking is not permitted in the vicinity of the dispenser and that the ignition must be turned off while the vehicle is being refueled.
(3) The sign required in Sentence (1) shall
(a) have a minimum dimension of 200 mm, and
(b) except as permitted in Sentence (4), have letters not less than 25 mm high.
(4) The sign required in Sentence (1) is permitted to display the international “No Smoking — Ignition Off” symbol not less than 100 mm in diameter.
Subsection 4.5.9.Leakage Detection
Liquid level measurement
4.5.9.1. The liquid level in storage tanks at fuel dispensing stations shall be measured in conformance with Subsection 4.3.16.
Subsection 4.5.10.Fire Prevention and Protection
Portable extinguishers
4.5.10.1. At least 2 portable extinguishers, each having a rating of not less than 10BC, shall be provided at every fuel dispensing station in conformance with Section 6.2.
Absorbent materials
4.5.10.2. Absorbent material to soak up liquid spillage shall be provided for use by attendants at fuel dispensing stations in conformance with Article 4.1.6.3.
SECTION 4.6BULK PLANTS
Subsection 4.6.1.Scope
Application
4.6.1.1. This Section applies to that portion of a property where flammable or combustible liquids are received in bulk quantities and are stored or handled for the purpose of being distributed.
Subsection 4.6.2.Storage
Storage
4.6.2.1. (1) Flammable and combustible liquids shall be stored in
(a) closed containers in conformance with Article 4.6.2.4., or
(b) storage tanks located outside buildings in conformance with Section 4.3
Storage tanks
4.6.2.2. At bulk plant rail loading and unloading facilities, the minimum distance from a storage tank to a railway line shall be in conformance with General Order No. O-32, Flammable Liquids Bulk Storage Regulations, of Transport Canada.
Shock pressure
4.6.2.3. Bulk storage tanks, piping, pumps, valves and associated components shall be designed, installed and maintained to accommodate shock pressure on the system.
Container storage
4.6.2.4. (1) Containers for flammable or combustible liquids stored indoors shall be arranged in conformance with Subsection 4.2.7.
(2) Containers for flammable or combustible liquids stored outdoors shall be stored in conformance with Subsection 4.2.11., except that the distance between the piles and property lines and the distance between piles need not apply when the containers are stored in an area that does not present a hazard to neighbouring property.
Spill control
4.6.2.5. An outdoor storage area shall be designed to accommodate accidental spillage in conformance with Subsection 4.1.6.
Fencing
4.6.2.6. (1) An outdoor area used for aboveground storage tanks, container storage, ancillary equipment and unloading facilities for flammable or combustible liquids shall be surrounded by a firmly anchored fence that is
(a) substantially constructed to discourage climbing and unauthorized entry,
(b) not less than 1.8 m high, and
(c) provided with gates that shall be locked when the storage area is not staffed.
Subsection 4.6.3.Dispensing
Interconnection
4.6.3.1. Dispensing systems for Class I liquids shall not be interconnected with dispensing systems for Class II and IIIA liquids.
Dispensing into vehicles
4.6.3.2. (1) Dispensers serving the general public for dispensing Class I liquids into fuel tanks of vehicles shall not be located at a bulk plant unless separated by a fence or equivalent barrier from the area in which the bulk storage operations are conducted.
(2) Where a dispenser referred to in Sentence (1) is supplied from an aboveground storage tank,
(a) an electrically-operated solenoid valve, designed to open only when the dispenser is being operated, shall be provided at the tank outlet, and
(b) an emergency valve shall be provided for the dispenser in conformance with Sentence 4.5.6.3.(1).
Dispensing and transfer inside buildings
4.6.3.3. Class I liquids shall be dispensed or transferred inside buildings only in conformance with Subsections 4.1.7. and 4.1.8.
Dispensing into metal containers or tanks
4.6.3.4. Class I liquids shall not be dispensed into a metal container or storage tank unless it is electrically connected in conformance with Article 4.1.8.2.
Subsection 4.6.4.Loading and Unloading Facilities
Clearances
4.6.4.1. (1) At a loading or unloading facility for tank vehicles or tank cars, the horizontal distance from the fill stem to an aboveground storage tank, a building or a property line shall be not less than
(a) 7.5 m for Class I liquids, and
(b) 4.5 m for Class II and IIIA liquids.
(2) At bulk plant rail loading and unloading facilities, the minimum distance from a loading structure to a railway line shall be in conformance with General Order No. O-32, Flammable Liquids Bulk Storage Regulations, of Transport Canada.
(3) Buildings for the shelter of personnel or pumps shall be considered a part of the loading or unloading facility.
Multi-purpose facilities
4.6.4.2. When piping and pumping systems have been used for the transfer of either flammable or combustible liquids at loading of unloading facilities, the system shall be cleaned of vapours before the other class of liquid is introduced.
Backflow preventers
4.6.4.3. (1) Systems through which tank cars or tank vehicles discharge into storage tanks by means of a pump shall be provided with backflow preventers located to prevent spills and inadvertent mixing of liquids.
(2) Systems referred to in Sentence (1) shall be designed, installed and maintained to prevent leakage or spillage.
Control valves
4.6.4.4. (1) Valves installed to control the filling of tank vehicles shall be of the self-closing type when used for Class I or II liquids.
(2) Control valves referred to in Sentence (1) shall be held open manually, except where automatic devices are provided for shutting off the flow when the vehicle is full or filled to a preset amount.
Bonding and grounding
4.6.4.5. (1) Bonding, grounding and isolation components for protection against static charges during the loading of tank vehicles or tank cars shall be provided when transferring flammable or combustible liquids.
(2) Where flammable or combustible liquids are transferred into railway tank cars, railway tracks shall be bonded throughout their length and permanently grounded in conformance with CTC 1982-8 RAIL, Railway Prevention of Electric Sparks Regulations, of Transport Canada.
(3) Bonding required in Sentence (1) shall consist of a metallic bond wire connected to the fill stem or to some part of the loading structure in electrical contact with the fill stem in conformance with Subsection 4.1.4.
(4) Bonding wires for tank vehicles shall be provided with a pull-off connector attached so as to be in electrical contact with the cargo tank of the tank vehicle.
(5) The bonding connection required in Sentence (1) shall be fixed to the tank vehicle or storage tank before dome covers are raised and shall remain in place until filling is completed and all dome covers have been closed and secured.
Downspouts
4.6.4.6. Filling of tank vehicles or tank cars through open domes shall be in conformance with Sentence 4.1.8.2.(2).
Subsection 4.6.5.Fire Protection
Portable extinguishers
4.6.5.1. At least 2 portable extinguishers, each having a rating of not less than 20BC, shall be provided at hazardous locations in bulk storage plants for flammable and combustible liquids, except that such portable extinguishers are permitted to be provided from the tank vehicles operated as part of a bulk plant which is not required in Article 4.6.2.6. to be fenced.
Subsection 4.6.6.Spill Control
Spill control
4.6.6.1. Facilities to control possible spills of flammable or combustible liquids shall be provided at loading and unloading points in conformance with Subsection 4.1.6.
SECTION 4.7PIERS AND WHARVES
Subsection 4.7.1.Scope
Application
4.7.1.1. This Section applies to flammable and combustible liquid installations on piers and wharves, but does not include marine fuel dispensing stations.
Subsection 4.7.2.General
Clearances
4.7.2.1. (1) Piers and wharves at which flammable or combustible liquid cargoes are to be transferred in bulk quantities to or from marine tank vessels shall be not less than 30 m from
(a) any bridge over a navigable waterway, and
(b) an entrance to a superstructure of any vehicular or railroad tunnel under a waterway.
(2) The termination of fixed piping for loading and unloading flammable or combustible liquids shall be not less than 60 m from a bridge or from an entrance to a tunnel.
Construction
4.7.2.2. The substructure and deck of a pier or wharf shall be designed for its intended use and shall be of heavy timber construction or other material that will provide adequate flexibility, resistance to shock, durability, strength and fire resistance.
Subsection 4.7.3.Storage Tanks
Installation
4.7.3.1. (1) Except as permitted in Sentences (2) and (3), storage tanks shall be installed on shore in conformance with Subsections 4.3.2. to 4.3.7.
(2) Storage tanks are permitted to be located in buildings on piers and wharves of solid-fill or noncombustible construction provided they conform to Subsections 4.3.12. to 4.3.14.
(3) Storage tanks are permitted to be buried in piers and wharves of the solid-fill type provided they conform to Subsections 4.3.8. to 4.3.11.
Subsection 4.7.4.Piping, Valves and Fittings
Installation and materials
4.7.4.1. The method of installation and materials used for piping, valves and fittings shall conform to Section 4.4.
Pipe supports
4.7.4.2. (1) Piping shall be properly supported and arranged to prevent excessive vibration or strain on equipment connected to it.
(2) Piping supports shall consist of
(a) wood having no dimension less than 150 mm,
(b) steel, or
(c) concrete.
(3) Where pipe is supported more than 1.2 m above the pier deck, piping supports shall have a fire-resistance rating of at least 2 hr.
Guards
4.7.4.3. In areas where general cargo is handled or where piping might be subject to mechanical damage from vehicles or watercraft, the piping shall be protected by means of guards.
Flexible connections
4.7.4.4. Piping between the shore and piers or wharves shall be provided with swing joints or flexible connections designed in conformance with good engineering practice to permit the independent movement of the pier or wharf and shore piping without strain on the pipe.
Shut-off valves
4.7.4.5. For each pipeline within 7.5 m of piers and wharves, a readily accessible valve to shut off the supply from shore shall be provided.
Access openings for inspection
4.7.4.6. (1) Access openings for inspection purposes below deck shall be provided for valves required in Article 4.7.4.5. and for connections to pipelines, and suitable signs shall be posted indicating their locations.
(2) No freight or materials shall be placed on piers and wharves in such a manner as to obstruct the access openings required in Sentence (1).
Identification
4.7.4.7. Identification tags or labels of metal or other material impervious to water and to the flammable or combustible liquids being transferred shall be attached to and maintained on all pipelines and control valves to designate their use.
Leakage testing
4.7.4.8. (1) Piping systems shall be tested for leakage in conformance with Subsection 4.4.6. before being put into service and before reactivation when used on a seasonal basis.
(2) Underground piping systems referred to in Sentence (1) shall be tested at intervals not greater than 12 months.
Subsection 4.7.5.Bonding and Grounding
Bonding and grounding
4.7.5.1. (1) Railway tracks on piers and wharves shall be bonded throughout their length and permanently grounded in conformance with CTC 1982-8 RAIL, Railway Prevention of Electric Sparks Regulations, of Transport Canada.
(2) Insulating joints shall be placed in all rails where entering upon the pier or wharf.
Subsection 4.7.6.Fire Protection
Portable extinguishers
4.7.6.1. (1) Portable extinguishers having a rated capacity of 20BC shall be provided in the vicinity of Class I liquid pumps and fuel dispensers in conformance with Section 6.2.
(2) Portable extinguishers shall be kept in the pump house or other suitable location where they will be accessible in the event of an emergency, but not accessible to the public.
(3) Where vessels are loading or unloading flammable or combustible liquids or are being refuelled, portable extinguishers with a rating of not less than 20BC shall be placed on the pier or wharf in the vicinity of loading or unloading operations, so that they will be accessible in the event of a fire emergency.
(4) Portable extinguishers provided in conformance with Sentence (3) shall be in addition to those provided on board the vessels.
Training
4.7.6.2. Operating personnel shall be trained in how to summon the nearest fire department in the event of fire.
Subsection 4.7.7.Bulk Transfer Stations
Location
4.7.7.1. (1) Except as permitted in Sentence (2), the bulk transfer of flammable or combustible liquids shall be permitted only on piers and wharves used exclusively for that purpose.
(2) Where it is not practical to locate bulk transfer stations on separate piers and wharves, such stations are permitted to be located on general purpose piers and wharves provided that guards or fences are installed around valves or pumping equipment to prevent entry of unauthorized personnel.
Leakage and spill control
4.7.7.2. (1) Measures to accommodate possible leakage or spillage from hose couplings shall be provided in conformance with Subsection 4.1.6.
(2) Provision shall be made to prevent spillage resulting from the disconnection of hoses.
Hose connections
4.7.7.3. (1) Except as provided in Sentence (2), hose connections on piping shall be of the bolted flange type, and all such connections shall be provided with shut-off valves.
(2) The use of cam-locking connections up to 100 mm in size shall be permitted.
(3) Hose connections shall not project beyond the face of piers and wharves.
Subsection 4.7.8.Cargo Hose
Cargo hose
4.7.8.1. (1) The transfer of flammable or combustible liquids between tank vessels and piers or wharves shall be through
(a) flexible cargo hose designed in conformance with good engineering practice, or
(b) jointed tubing or piping
(i) suitable for the cargo to be transferred, and
(ii) designed to withstand the maximum design working pressure.
Maintenance and testing
4.7.8.2. Cargo hose shall be maintained in satisfactory operating condition and be pressure tested, at intervals not greater than 12 months, to 1.5 times the maximum working pressure but not less than 350 kPa (gauge).
Supports
4.7.8.3. Cargo hose shall be supported where it is not run on a solid foundation.
Subsection 4.7.9.Cargo Pumps
Design and installation
4.7.9.1. Cargo pumps shall be designed and installed in conformance with Subsection 4.4.10.
Pressure relief
4.7.9.2. Cargo pumps capable of producing pressures in excess of the safe working pressure of the cargo hose shall be provided with pressure relief devices such as return lines or relief valves.
Location
4.7.9.3. (1) Except as permitted in Sentence (2), cargo pumps shall be located
(a) on shore or on piers and wharves either of noncombustible construction or of the solid-fill type, and
(b) not less than 3 m from other buildings or structures.
(2) Where it is not practical to install cargo pumps as required in Sentence (1), they are permitted to be installed on piers and wharves of combustible construction if located in pump houses
(a) conforming to Subsection 4.7.10., and
(b) located not less than 3 m from other buildings.
Subsection 4.7.10.Pump Houses
Construction
4.7.10.1. Pump houses shall be of noncombustible construction with floors that are chemically resistant to the liquid being handled, liquid-tight and equipped with curbs or flashings around the base of the wall not less than 100 mm in height to contain any spilled liquid.
Ventilation
4.7.10.2. Ventilation shall be provided in pump houses in conformance with Subsection 4.1.7.
Subsection 4.7.11.Transfer Operations
Supervision
4.7.11.1. (1) Transfer operations shall be carried out only under the continuous supervision of a person qualified to supervise such operations.
(2) Cargo shall not be transferred to or from a marine tank vessel unless sufficient personnel are on board to control the operation.
(3) The person responsible for directing the operations shall
(a) prior to transfer of cargo, ascertain that no unauthorized repair work is being carried out on the pier or wharf and that there are no open flames in the vicinity,
(b) during the transfer of cargo, monitor the progress of the loading and unloading to prevent overflow, and
(c) inspect the hose and connections for leakage and, if leakage occurs, stop the operations.
Bonding and grounding
4.7.11.2. (1) Tank vessels shall be electrically connected to the shore piping prior to the connecting of cargo hose, except when cathodic protection facilities are operating.
(2) Electrical connections to tank vessels shall be maintained until the cargo hose has been disconnected and any spillage has been removed.
Equipment
4.7.11.3. (1) The cargo hose shall be of adequate length to allow for the movement of the vessel.
(2) Gaskets shall be used in all hose joints and pipe couplings to prevent leakage.
(3) Flanged joints shall be tightly bolted to prevent leakage.
(4) Drip pans shall be placed under hose connections on piers and wharves, except where a sump pit or settling basin is provided.
Spill control
4.7.11.4. (1) When transfer operations are completed,
(a) the valves on the hose connections shall be closed, and
(b) unless the cargo hose is equipped with a device that prevents liquid from draining from the hose, it shall be drained into appropriate containers that shall be emptied in such a fashion as to not create a fire or explosion hazard.
(2) Care shall be taken that no liquid is discharged on a pier or wharf or overboard during draining and emptying operations.
SECTION 4.8PROCESS PLANTS
Subsection 4.8.1.Scope
Application
4.8.1.1. (1) Except as provided in Sentence (2), this Section applies to those process plants, including refineries, which contain industrial processes involving flammable or combustible liquids.
(2) This Section does not apply to distilleries.
Subsection 4.8.2.Outdoor Processing Equipment
Location
4.8.2.1. (1) The location of outdoor processing equipment in process plants shall be based on its flammable and combustible liquid capacity as described in Sentences (2) to (4).
(2) Except as provided in Sentence (4), outdoor processing equipment having emergency relief venting and a working pressure of not more than 17 kPa (gauge) shall be separated from property lines and buildings on the same property by distances
(a) equal to those in Table 4.3.2.A. for stable liquids, and
(b) 2.5 times those in Table 4.3.2.A. for unstable liquids.
(3) Except as provided in Sentence (4), outdoor processing equipment having emergency relief venting and a working pressure more than 17 kPa (gauge) shall be separated from property lines and buildings on the same property by distances
(a) 1.5 times those in Table 4.3.2.A. for stable liquids, and
(b) 4 times those in Table 4.3.2.A. for unstable liquids.
(4) Where protection is not provided against fires or explosions in processing equipment, the distances in Sentences (2) and (3) shall be doubled.
Subsection 4.8.3.Processing Buildings
Explosion venting
4.8.3.1. Except as provided in Article 4.8.4.2., where Class IA liquids or unstable liquids are processed within a room or a building, the room or building shall be designed to prevent critical structural and mechanical damage from an internal explosion in conformance with NFPA 68, “Guide for Venting of Deflagrations”.
Fire separations
4.8.3.2. Areas where unstable liquids are handled or where small scale unit chemical processes are carried out shall be separated from the remainder of the building by a fire separation having a fire-resistance rating of not less than 2 hr.
Basements and pits
4.8.3.3. (1) Except as permitted in Article 4.1.5.9., Class I liquids shall not be handled or used in basements.
(2) Where Class I liquids are handled or used above grade within existing buildings that have basements or covered pits into which flammable vapours can travel and accumulate, such below grade areas shall be provided with mechanical ventilation designed to prevent the accumulation of flammable vapours.
(3) The mechanical ventilation required in Sentence (2) shall be capable of exhausting at least 18 m3/hr per square metre of the room area.
Ventilation
4.8.3.4. (1) Enclosed processing buildings handling flammable or combustible liquids shall be ventilated as specified in Subsection 4.1.7.
(2) Equipment used in a building and the ventilation of the building shall be designed so as to limit flammable vapour-air mixtures under normal operating conditions to the interior of equipment, and to not more than 1.5 m from such equipment.
Subsection 4.8.4.Fire Prevention and Protection
Spill and vapour control
4.8.4.1. (1) Processing equipment shall be designed and arranged to
(a) prevent the unintentional escape of liquids and vapours, and
(b) minimize the quantity escaping in the event of accidental release.
(2) Measures to control spilled flammable and combustible liquids shall be provided in conformance with Subsection 4.1.6.
Explosion protection
4.8.4.2. Processing equipment where an explosion hazard is present shall be
(a) designed to withstand the explosion pressure without damage to the equipment,
(b) provided with explosion venting in conformance with NFPA 68, “Guide for Venting of Deflagrations”, or
(c) provided with an explosion prevention system in conformance with NFPA 69, “Explosion Prevention Systems”.
Fire prevention and protection
4.8.4.3. (1) An evaluation of the fire and explosion risks shall be undertaken to consider the material properties, quantities, operating conditions, storage arrangement, transportation, process design, operating and maintenance procedures.
(2) The evaluation in Sentence (1) shall result in the identifying of means that will minimize fires and explosions from occurring and mitigate the effects of a fire or explosion should it occur.
(3) Measures identified in Sentence (2) shall be implemented to prevent fires and explosions from occurring.
(4) Measures identified in Sentence (2) shall be implemented, in conformance with good engineering practices, and may include but are not limited to
(a) fire detection and alarm,
(b) fire extinguishing systems that conform to NFPA 11, 11A, 12, 12A, 13, 15, 16, 17 and 25,
(c) a reliable water supply with pressure and flow rates capable of meeting the fire demands,
(d) standpipe and hose systems connected to a reliable water supply located such that vessels, pumps and other equipment containing flammable or combustible liquids can be reached with at least one hose stream,
(e) combination nozzles capable of discharging a straight steam, water spray or fog,
(f) hydrants or monitor nozzles installed in accordance with NFPA 24, “Installation of Private Fire Service Mains and their Appurtenances”,
(g) fire-proofing to protect essential equipment and controls,
(h) methods to effect an emergency shut-down of systems, and
(i) methods to protect equipment and structures from fire exposure.
(5) The evaluation and measures shall be put in writing and kept in the building for review by the Chief Fire Official.
SECTION 4.9DISTILLERIES
Subsection 4.9.1.Scope
Application
4.9.1.1. (1) This Section applies to those areas or buildings in distilleries where distilled beverage alcohols are concentrated, blended, mixed, stored or packaged.
(2) The storage, handling and use of flammable or combustible liquids other than distilled beverage alcohols in a distillery shall conform to this Part.
(3) Where there is a conflict between the requirements of this Section and other requirements in this Part, this Section shall apply.
(4) Where there are conflicts between this Part and the Federal Excise Regulations (Canada) with regard to security of the product and measurement methods, the Federal Excise Regulations (Canada) shall apply.
Subsection 4.9.2.General
Building classification
4.9.2.1. (1) Except as provided in Sentence (2), buildings or parts thereof in which distilled beverage alcohol is distilled, processed or stored in bulk shall be classified as high hazard industrial occupancies.
(2) Buildings or parts thereof used for storage of closed containers of distilled beverage alcohols shall be classified as Division 2 industrial occupancies.
Subsection 4.9.3.Storage Tanks and Containers
Design, fabrication and testing
4.9.3.1. Storage tanks, wooden vats, barrels, drums or containers used for the storage or processing of distilled beverage alcohols shall be designed, fabricated and tested for the anticipated maximum working pressure, operating temperature, internal corrosion conditions and structural stresses to which they could be subjected.
Supports, foundations and anchorage
4.9.3.2. (1) Supports, foundations and anchorage of storage tanks shall comply with Subsection 4.3.3., except that timber supports shall be permitted.
(2) Storage tank supports having less than a 2-hr fire-resistance rating shall be protected by an automatic fire suppression system conforming to an applicable standard listed in Sentence 6.8.1.1.(1).
(3) The area underneath any storage tank greater than 1.2 m in diameter shall be protected by an automatic fire suppression system conforming to an applicable standard listed in Sentence 6.8.1.1.(1).
Storage tank vents
4.9.3.3. Normal and emergency vents shall be provided on storage tanks in conformance with good engineering practice.
Subsection 4.9.4.Storage
Storage tanks, drums and barrels
4.9.4.1. (1) Where more than 25000 L of distilled beverage alcohol in storage tanks, drums or barrels are stored inside buildings, such buildings shall be sprinklered.
(2) For storage tank buildings protected by automatic sprinklers in conformance with NFPA 13, “Installation of Sprinkler Systems”, storage capacities shall not be limited.
Closed containers and storage aids
4.9.4.2. Storage of closed containers of distilled beverage alcohols, packaging materials and empty bottles, drums, barrels and pallets shall be in conformance with Part 3 of the National Fire Code 1995.
Subsection 4.9.5.Piping and Pumping Systems
Design and installation
4.9.5.1. The design, fabrication, assembly and inspection of piping and pumping systems containing distilled beverage alcohols shall be suitable for the anticipated maximum working pressures, operating temperatures, internal corrosion conditions and structural stresses to which they could be subjected.
Subsection 4.9.6.Ventilation
Ventilation
4.9.6.1. (1) Natural or mechanical ventilation shall be provided for all areas where alcohol vapours are released from storage tanks or process equipment under normal operating conditions, to prevent the concentration of vapours from exceeding 25 per cent of the lower explosive limit, measured 1.5 m from any equipment or from any opening subject to vapour release.
(2) Explosion venting as outlined in Sentence 4.2.9.6.(1) is only required in the distillation areas of a distillery.
Subsection 4.9.7.Spill Control
Spill control
4.9.7.1. (1) Except as permitted in Sentence (2), emergency drainage systems shall be provided to direct any spills or leakage of flammable or combustible liquids, together with water used for fire fighting, to a safe location in conformance with Subsection 4.1.6.
(2) Water-miscible effluent from spills and fire fighting operations is permitted to be directed into a sewer system provided it does not create a fire hazard nor any risk to public health or safety.
Subsection 4.9.8.Fire Protection
Portable extinguishers
4.9.8.1. (1) Except as provided in Sentences (2) to (4), portable extinguishers shall be provided in conformance with Section 6.2.
(2) Except as permitted in Sentence (3), in maturing warehouses, at least one 4A:30BC rated fire extinguisher shall be located adjacent to each exit.
(3) Hose stations complying with Article 6.2.6.6. are permitted to be installed in lieu of portable extinguishers at locations required in Sentence (2), and spaced so that the travel distance to the nearest hose is not greater than 25 m.
(4) At least one 10BC portable extinguisher shall be located on each industrial lift truck.
Standpipe and hose systems
4.9.8.2. (1) Except as provided in Sentence (2), standpipe and hose systems shall be provided and installed in distilleries in accordance with the Building Code.
(2) Where a building is sprinklered in conformance with the Building Code, small hose (38 mm) stations are permitted to be supplied from interior sprinkler piping.
SECTION 4.10WITHDRAWAL OF STORAGE TANKS FROM SERVICE
Subsection 4.10.1.Scope
Application
4.10.1.1. This Section applies to the procedures to be followed when storage tanks for flammable or combustible liquids are removed, abandoned or temporarily taken out of service.
Subsection 4.10.2.Rendering Storage Tanks Temporarily Out of Service
Underground storage tanks
4.10.2.1. (1) When underground storage tanks will be out of service for a period not exceeding 180 days,
(a) the liquid level in the storage tank shall be measured at intervals not greater than one month and a record of such measurements shall be retained for inspection,
(b) fill pipe covers and covers over openings to measure liquid levels, dispensers and power controls shall be kept locked when not in use, and
(c) vent piping shall be kept open.
(2) Except as provided in Sentence (3), when underground storage tanks will be out of service for a period exceeding 180 days,
(a) the storage tanks, connected piping and dispensers shall be emptied of Class I liquid,
(b) the storage tanks, piping and dispensers shall be refilled with a Class II or IIIA liquid, or not less than 1 kg of dry ice for each 500 L of tank capacity shall be added to the storage tank,
(c) measurements of the liquid level of each storage tank containing a Class II or IIIA liquid shall be made at intervals not greater than one month, and a record of such measurements shall be retained for inspection, and
(d) fill pipe covers and covers over openings to measure liquid levels, dispensers and power controls shall be locked.
(3) Where underground storage tank facilities are operated on a seasonal basis,
(a) at the close of each season of operation,
(i) the liquid level of each storage tank shall be measured,
(ii) a record of such measurements shall be retained for inspection, and
(iii) all fill pipe covers and covers over openings for measuring liquid levels, dispensers and power controls shall be locked, and
(b) prior to the start of an operating season,
(i) the liquid level in each storage tank shall be measured,
(ii) the measurements shall be compared with those recorded at the close of the previous season, and
(iii) when a loss of liquid or water intrusion is apparent, immediate action shall be taken to determine and correct the condition.
(4) Where a storage tank has been out of service for more than 12 months, the tank and piping shall be tested for leakage in conformance with Subsections 4.3.15. and 4.4.6.
Aboveground storage tanks
4.10.2.2. (1) When an aboveground storage tank will be out of service for a period not exceeding 180 days, the piping from the tank shall be capped or the valves necessary to achieve similar isolation of the tank shall be closed and securely locked.
(2) When out-of-service storage tanks referred to in Sentence (1) contain flammable or combustible liquids, the liquid level in the tank shall be measured and the readings compared at intervals not greater than one month.
(3) Where an aboveground storage tank will be out of service for a period exceeding 180 days,
(a) all liquid and vapours shall be removed from the storage tank and its connected piping, and
(b) the storage tank markings shall clearly indicate that the tank is empty.
Corrosion protection
4.10.2.3. Corrosion protection systems shall be maintained in operating condition when a storage tank is temporarily out of service and during seasonal shutdowns.
Subsection 4.10.3.Removal of Underground Storage Tanks
Removal
4.10.3.1. (1) When underground storage tanks have no further use or have been out of service for 2 years or longer, such tanks, together with connected piping and dispensers, shall
(a) have all flammable and combustible liquids removed from them,
(b) be purged of vapours, and
(c) except as permitted in Article 4.10.3.2., be removed from the ground.
(2) If contaminated, soil surrounding the storage tanks described in Sentence (1) shall be replaced with clean fill.
Abandonment in place
4.10.3.2. (1) Where the Chief Fire Official determines that it is impractical to remove an underground storage tank described in Sentence 4.10.3.1.(1), such tank shall be filled with an inert material.
(2) Where the Chief Fire Official determines that it is impractical to remove underground piping described in Sentence 4.10.3.1.(1), such piping shall have the ends permanently sealed by capping or plugging.
Subsection 4.10.4.Disposal and Reuse of Storage Tanks
Disposal
4.10.4.1. Where storage tanks are to be disposed of, sufficient openings shall be cut in the tanks to render them unfit for further use.
Reuse
4.10.4.2. (1) Except as permitted in Sentence (2), a storage tank shall not be reused for the storage of flammable or combustible liquids.
(2) A storage tank is permitted to be reused for the storage of flammable or combustible liquids only after having been
(a) refurbished and found to conform to one of the standards in Sentence 4.3.1.2.(1), or
(b) refurbished in conformance with Sentence (3).
(3) A steel storage tank is permitted to be refurbished in conformance with
(a) CAN4-S601(A), “Shop Refurbishing of Steel Aboveground Horizontal Tanks for Flammable and Combustible Liquids”,
(b) CAN4-S603(A), “Refurbishing of Steel Underground Tanks for Flammable and Combustible Liquids”, or
(c) CAN4-S630(A), “Shop Refurbishing of Steel Aboveground Vertical Tanks for Flammable and Combustible Liquids”.
Riveted storage tanks
4.10.4.3. Riveted storage tanks shall not be relocated.
SECTION 4.11TANK VEHICLES
Subsection 4.11.1.Scope
Application
4.11.1.1. This Section applies to tank vehicles when located on a property covered in this Code.
Subsection 4.11.2.General
Portable extinguishers
4.11.2.1. (1) A tank vehicle shall be provided with at least one portable extinguisher having a minimum rating of 20BC and conforming to Section 6.2.
(2) When more than one portable extinguisher is provided, each extinguisher shall have a minimum rating of 10BC.
(3) Portable extinguishers on a tank vehicle shall be readily accessible.
Hot works
4.11.2.2. Hot works performed on or in close proximity to a tank vehicle shall conform to Section 5.17.
Parking inside buildings
4.11.2.3. (1) A tank vehicle shall not be parked inside a building unless the building is specifically designed for that purpose.
(2) A tank vehicle parked inside a building shall have sufficient space in the tank to compensate for thermal expansion of the flammable or combustible liquid.
(3) A tank vehicle parked inside a building shall have no leaks of flammable or combustible liquid.
Parking outside buildings
4.11.2.4. (1) Except as provided in Sentence (2), a tank vehicle is permitted to be left unattended by the vehicle operator outside a building for not more than 1 hr.
(2) A tank vehicle is permitted to be left unattended by the vehicle operator outside a building for more than 1 hr, but only in a parking space
(a) that is located not less than 15 m from a buildings, and
(b) where the tank vehicle is not exposed to undue hazard from accident or collision.
Subsection 4.11.3.Loading and Unloading
Ignition sources
4.11.3.1. During loading and unloading operations, a tank vehicle and its delivery equipment shall be separated from ignition sources by distances conforming to the requirements for dispensers in Articles 4.5.3.2. and 4.5.8.7.
Static electric charges
4.11.3.2. During loading and unloading of a tank vehicle, measures shall be taken against static electric charges in conformance with Articles 4.1.8.2. and 4.6.4.5.
Supervision
4.11.3.3. During loading and unloading of a tank vehicle, trained personnel shall be in a position to shut off the flow of liquid in an emergency.
Multi-use compartments
4.11.3.4. When a compartment of a tank vehicle has been used to carry a Class I liquid, the compartment, piping and accessory delivery equipment shall be drained of liquid before a Class II or IIIA liquid is loaded.
Engine
4.11.3.5. When loading or unloading of Class I liquids is done without the use of the engine of the tank vehicle, the engine ignition shall be shut off during the transfer operations.
Unloading
4.11.3.6. (1) Before a tank vehicle is unloaded, the volume of liquid in the receiving tank shall be measured to ensure that the tank can accept the volume to be unloaded.
(2) If tank vents are obstructed, the transfer of liquid shall be stopped.
(3) A tank vehicle shall not be parked on a street, shoulder or sidewalk while unloading at a fuel dispensing station.
SECTION 4.12LABORATORIES
Subsection 4.12.1.Scope
Application
4.12.1.1. This Subsection applies to laboratories where flammable and combustible liquids are used or handled.
Subsection 4.12.2.Separation
Separation
4.12.2.1. (1) A laboratory shall be separated from other parts of the building by a fire separation having a fire-resistance rating of not less than 1 hr.
(2) Despite Sentence (1), an existing laboratory that has fire separations consisting of membranes of lath and plaster or gypsum board shall be deemed to be in compliance with Sentence (1).
Subsection 4.12.3.Maximum Quantities
Maximum quantities
4.12.3.1. (1) Except as provided in Sentence 4.2.6.4.(1), containers used for the storage of flammable or combustible liquids in a laboratory shall be of not more than 5 L capacity and shall conform to Subsection 4.2.3.
(2) Except as permitted in Sentence (3), not more than 300 L of flammable and combustible liquids, of which not more than 50 L shall be flammable liquids, shall be permitted in the open area of a laboratory.
(3) Quantities in excess of those permitted in Sentence (2) shall be stored in cabinets conforming to Subsection 4.2.10. or in a room conforming to Subsection 4.2.9.
(4) Containers of flammable or combustible liquids shall be kept closed when not in use.
Subsection 4.12.4.Emergency Planning
Fire safety plan
4.12.4.1. (1) Except as provided in Sentences (2) to (4), a laboratory shall conform with the requirements of Section 2.8.
(2) Fire drills required in Subsection 2.8.3. shall be held at intervals not greater than six months in laboratories.
(3) Personnel working in laboratories shall be trained in the safe handling of flammable and combustible liquids.
(4) Measures shall be taken to prevent access to laboratories by unauthorized persons.
Subsection 4.12.5.Spill Control
Spill control
4.12.5.1. A written spill procedure shall be provided for laboratories in conformance with Article 4.1.6.4.
Subsection 4.12.6.Electrical Equipment
Electrical equipment
4.12.6.1. Electrical equipment shall conform with Subsection 4.1.4.
Subsection 4.12.7.Inspection and Maintenance
Inspection and maintenance
4.12.7.1. (1) Electrical equipment, mechanical systems, piping, valves, and automatic and manual control and safety devices shall be inspected annually and maintained in good operating condition at all times.
(2) The ventilation systems serving a laboratory shall be inspected and cleaned as required to prevent the accumulation of combustible or reactive deposits, and the intervals between inspections shall be not greater than
(a) twelve months for the ventilation systems of the open laboratory areas, and
(b) six months for the ventilation system of a power-ventilated enclosure required in Article 4.12.8.2.
Subsection 4.12.8.Ventilation
Scope and application
4.12.8.1. (1) Ventilation systems shall conform to Subsection 4.1.7. and Articles 4.12.8.2. to 4.12.8.5.
(2) Despite Sentence (1), existing ventilation systems need not conform with Articles 4.1.7.3., 4.1.7.4. and 4.12.8.2. to 4.12.8.5.
(3) Existing ventilation systems where make up air is provided shall be deemed to be in compliance with Article 4.1.7.5.
(4) Existing ventilation systems that maintain a negative pressure within the ventilation system with respect to the surroundings shall be deemed to be in compliance with Article 4.1.7.7.
Ventilation
4.12.8.2. (1) A laboratory shall be provided with continuous mechanical ventilation designed and maintained to ensure that flammable vapours
(a) do not accumulate in the laboratory,
(b) are prevented from migrating to other parts of the building,
(c) do not accumulate in the ventilation system,
(d) are exhausted to the outdoors, and
(e) are not returned to the building.
(2) A ventilation system required in Sentence (1) shall be provided with monitoring devices to
(a) indicate that the ventilation system is in operation, and
(b) sound an alarm if the ventilation system malfunctions.
Power-ventilated enclosure
4.12.8.3. (1) The use and handling of flammable or combustible liquids in a laboratory shall be confined inside a power-ventilated enclosure conforming to Articles 4.12.8.4. and 4.12.8.5. when
(a) their use releases flammable vapours which could be potentially explosive,
(b) liquids are heated to a temperature equal to or greater than their flash point, or
(c) unstable liquids are used.
Enclosure exhaust ventilation
4.12.8.4. (1) The ventilation system for a power-ventilated enclosure required in Article 4.12.8.3. shall
(a) conform to NFPA 91, “Exhaust Systems for Air-Conveying of Materials”,
(b) provide continuous exhaust ventilation at an air velocity sufficient to prevent the accumulation of explosive vapours or of combustible or reactive deposits in the power-ventilated enclosure and its exhaust duct system,
(c) confine flammable vapours to the area where they are generated and exhaust them to the outdoors,
(d) not return the exhausted air to the building, and
(e) be provided with well identified control switches that are
(i) located outside of the power-ventilated enclosure, and
(ii) readily accessible in case of an emergency.
(2) Where deposits referred to in Clause (1)(b) can accumulate in the power-ventilated exhaust duct system and create a fire or explosion hazard,
(a) provisions shall be made to remove such deposits so they do not create a fire or explosion hazard, or
(b) an automatic fire suppression system shall be provided in conformance with an applicable standard listed in Sentence 6.8.1.1.(1).
Enclosure construction
4.12.8.5. (1) The power-ventilated enclosure required in Article 4.12.8.3. and its exhaust system shall
(a) except as provided in Sentences (2) and (3), be constructed of noncombustible materials compatible with and chemically resistant to vapours being exhausted,
(b) be provided with access doors to permit inspection and maintenance of the fan assembly and exhaust ducts,
(c) be provided with instructions for its use and the operation of the ventilation system, and
(d) be provided with means to control accidental spillage in conformance with Subsection 4.1.6.
(2) Combustible materials are permitted in systems described in Clause (1)(a) where
(a) such materials are required by the corrosive or reactive properties of chemicals or liquids being used, and
(b) their flame-spread rating is not more than 25.
(3) The flame-spread rating required in Sentence (2) is permitted to be greater than 25 if an automatic fire suppression system conforming to an applicable standard listed in Sentence 6.8.1.1.(1) is provided inside the power-ventilated enclosure and its exhaust duct system.
Subsection 4.12.9.Refrigerated Storage
Refrigerated storage
4.12.9.1. (1) Where refrigerators are required to keep Class I liquids at a temperature below normal ambient conditions in a laboratory, such refrigerators shall be designed so that
(a) electrical equipment located within the storage compartment, within the outer shell, on the door and the door frame of the refrigerator is in conformance with Subsection 4.1.4., for Class I, Division 1 hazardous locations, and
(b) electrical equipment mounted on the outside surface of the refrigerator is
(i) in conformance with Subsection 4.1.4., in Class I, Division 2 hazardous locations, or
(ii) located above the top of the storage compartment.
(2) Refrigerators described in Sentence (1) shall be identified as containing flammable or combustible liquids.
(3) Class I liquids stored in refrigerators shall be kept in closed containers.
O Reg. 388/97, Part 4; O. Reg. 302/99, s. 2; O. Reg. 475/00, ss. 4-31; O. Reg. 144/06, s. 11.
PART 5
HAZARDOUS MATERIALS, PROCESSES AND OPERATIONS
TABLE OF CONTENTS
SECTION 5.1 |
GENERAL |
Subsection 5.1.1. |
Application |
Subsection 5.1.2. |
Means of Egress |
Subsection 5.1.3. |
Electrical Installations |
Subsection 5.1.4. |
Ventilation |
SECTION 5.2 |
EXPLOSIVES, FIREWORKS AND PYROTECHNICS |
Subsection 5.2.1. |
Explosives |
Subsection 5.2.2. |
Fireworks and Pyrotechnics |
SECTION 5.3 |
MATCHES |
Subsection 5.3.1. |
Storage |
SECTION 5.4 |
CELLULOSE NITRATE PLASTICS |
Subsection 5.4.1. |
Displays |
Subsection 5.4.2. |
Manufacture |
Subsection 5.4.3. |
Storage of Finished Products |
Subsection 5.4.4. |
Cellulose Nitrate Motion Picture Film |
Subsection 5.4.5. |
Fire Protection |
SECTION 5.5 |
AMMONIUM NITRATE |
Subsection 5.5.1. |
Application |
Subsection 5.5.2. |
Exposure |
Subsection 5.5.3. |
Storage Buildings |
Subsection 5.5.4. |
Storage |
Subsection 5.5.5. |
Fire Hazards |
Subsection 5.5.6. |
Fire Protection |
SECTION 5.6 |
COMPRESSED GAS CYLINDERS |
Subsection 5.6.1. |
General |
Subsection 5.6.2. |
Storage |
SECTION 5.7 |
REACTIVE SUBSTANCESRESERVED |
SECTION 5.8 |
CORROSIVE LIQUIDSRESERVED |
SECTION 5.9 |
OXIDIZING MATERIALSRESERVED |
SECTION 5.10 |
COMBUSTIBLE DUST PRODUCING PROCESSES |
Subsection 5.10.1. |
Dust Collection |
SECTION 5.11 |
COMBUSTIBLE FIBRES |
Subsection 5.11.1. |
Storage |
Subsection 5.11.2. |
Fire Protection |
SECTION 5.12 |
SPRAY APPLICATIONS USING FLAMMABLE AND COMBUSTIBLE MATERIALS |
Subsection 5.12.1. |
Location |
Subsection 5.12.2. |
Construction |
Subsection 5.12.3. |
Ventilation |
Subsection 5.12.4. |
Exhaust Ducts |
Subsection 5.12.5. |
Electrical Equipment |
Subsection 5.12.6. |
Flammable and Combustible Liquids |
Subsection 5.12.7. |
Control of Fire Hazards |
Subsection 5.12.8. |
Fire Protection Equipment |
Subsection 5.12.9. |
Drying Operations |
SECTION 5.13 |
DIP TANKS |
Subsection 5.13.1. |
Location |
Subsection 5.13.2. |
Construction |
Subsection 5.13.3. |
Overflow and Drain Pipes |
Subsection 5.13.4. |
Salvage Tanks |
Subsection 5.13.5. |
Control of Fire Hazards |
Subsection 5.13.6. |
Fire Protection |
SECTION 5.14 |
SPECIAL PROCESSES INVOLVING FLAMMABLE AND COMBUSTIBLE LIQUIDS |
Subsection 5.14.1. |
Quench Tanks |
Subsection 5.14.2. |
Flow-Coating Operations |
Subsection 5.14.3. |
Roll-Coating Processes |
Subsection 5.14.4. |
Electrostatic Spraying and Detearing |
Subsection 5.14.5. |
Automobile Undercoating |
Subsection 5.14.6. |
Dry Powder Finishing |
Subsection 5.14.7. |
Organic Peroxides and Dual Component |
SECTION 5.15 |
RADIOACTIVE MATERIALS |
Subsection 5.15.1. |
Application |
Subsection 5.15.2. |
Storage |
Subsection 5.15.3. |
Emergency Procedures |
SECTION 5.16 |
FUMIGATION AND THERMAL INSECTICIDAL FOGGING |
Subsection 5.16.1. Subsection 5.16.2. |
Application Safety Precautions |
SECTION 5.17 |
WELDING AND CUTTING |
Subsection 5.17.1. |
General |
Subsection 5.17.2. |
Use and Maintenance of Equipment |
Subsection 5.17.3. |
Prevention of Fires |
SECTION 5.18 |
INDUSTRIAL OVENS FOR BAKING AND DRYING PROCESSES |
Subsection 5.18.1. |
Application |
Subsection 5.18.2. |
Location |
Subsection 5.18.3. |
Construction |
Subsection 5.18.4. |
Ventilation |
Subsection 5.18.5. |
Maintenance |
Subsection 5.18.6. |
Fire Protection |
SECTION 5.1GENERAL
Subsection 5.1.1.Application
Application
5.1.1.1. This Part applies to materials, processes and operations that involve a risk from explosion or high flammability, or otherwise create a hazard to life safety or health.
Subsection 5.1.2.Means of Egress
5.1.2.1. Hazardous materials, processes and operations shall be located and the premises maintained so that the means of egress will not be obstructed in any manner that would interfere with evacuation of the floor area in the event of a fire.
Subsection 5.1.3.Electrical Installations
Electrical installations
5.1.3.1. Electrical installations shall conform to the Electrical Safety Code made under the Electricity Act, 1998.
Subsection 5.1.4.Ventilation
5.1.4.1. Ventilation shall be provided for hazardous locations and processes in conformance with the Building Code and the requirements of this Part.
SECTION 5.2EXPLOSIVES, FIREWORKS AND PYROTECHNICS
Subsection 5.2.1.Explosives
Storage, handling and use
5.2.1.1. The storage, handling and use of explosives, blasting agents, detonators, propellant explosives, pyrotechnics and ammunition shall be in conformance with the Explosives Act (Canada) and the Explosives Regulations made thereunder.
Fire emergency procedures
5.2.1.2. (1) Any person using, storing or handling explosives shall establish fire emergency procedures in conformance with Section 2.8 and that shall specify
(a) the location and identification of storage and use areas,
(b) methods to control a fire emergency safely and efficiently, and
(c) the names, addresses and telephone numbers of persons to be contacted in case of fire during nonoperating hours.
Subsection 5.2.2.Fireworks and Pyrotechnics
Manufacture, storage, transportation and sale
5.2.2.1. The manufacture, storage, transportation and sale of fireworks and pyrotechnics shall be in conformance with the Explosives Act (Canada) and the Explosives Regulations made thereunder.
Handling and discharge
5.2.2.2. The handling and discharge of fireworks and pyrotechnics shall conform with the Fireworks Manual and Pyrotechnics Special Effects Manual, as published by the Explosives Regulatory Division, Natural Resources Canada.
SECTION 5.3MATCHES
Subsection 5.3.1.Storage
Labelling and packing
5.3.1.1. Matches shall be classified, packaged and labelled by the manufacturer as Class 4 Division 1, Flammable Solids, in conformance with the Transportation of Dangerous Goods Act (Canada).
Storage compartment
5.3.1.2. Where the aggregate volume of piles of stored matches exceeds 3 m3, storage compartments shall be constructed in conformance with the requirements of the Building Code for Group ‘F’ Division 1 occupancies.
Carton pile arrangements
5.3.1.3. In storage areas regulated by Article 5.3.1.2., shipping cartons containing matches shall be arranged in piles not exceeding 3 m in height or 40 m3 in volume, and separated by aisles 2.4 m wide.
Mixed storage
5.3.1.4. In mixed storage areas, matches shall be stored in a specific area separated from the remainder of the storage by a clear space of 2.4 m.
Storage restrictions
5.3.1.5. Matches shall not be stored within 3 m of any elevator shaft opening, stairway or other vertical opening.
SECTION 5.4CELLULOSE NITRATE PLASTICS
Subsection 5.4.1.Displays
Advertising displays
5.4.1.1. Displays of cellulose nitrate plastic articles in stores that are not in showcases or show windows shall be displayed only when placed on tables or counters not more than 1 m wide and 3 m long, and the spaces underneath the tables or counters shall be kept free of combustible materials.
Lighting fixtures
5.4.1.2. Lighting fixtures shall not be located adjacent to any cellulose nitrate plastic material so as to create a possible ignition hazard.
Subsection 5.4.2.Manufacture
Storage of raw materials
5.4.2.1. Raw materials used in the manufacture of cellulose nitrate plastics shall be stored only in areas reserved for that purpose.
5.4.2.2. Not more than 450 kg of raw material used for the manufacture of finished cellulose nitrate plastic goods shall be stored in cabinets in any one workroom, not more than 225 kg stored in any one cabinet and not more than 112 kg in any one compartment of the cabinet.
5.4.2.3. Raw material in excess of that permitted in Article 5.4.2.2. shall be kept in vented vaults not exceeding 40 m3 capacity and protected with an automatic sprinkler system installed in conformance with NFPA 13, “Installation of Sprinkler Systems”.
5.4.2.4. In factories manufacturing articles of cellulose nitrate plastics, sprinklered and vented cabinets, vaults or storage rooms shall be provided to prevent the accumulation of excessive quantities of such material in workrooms.
Stationing of operators
5.4.2.5. In the workrooms of factories where cellulose nitrate plastics are being processed, operators shall be stationed not closer than 1 m apart.
Storage in work areas
5.4.2.6. Material for the manufacture of cellulose nitrate plastic articles that is not kept in containers may be placed on tables, workbenches or at machines provided the quantity does not exceed one day’s supply.
5.4.2.7. The total amount of cellulose nitrate plastic materials, including the material in containers and on tables, in any one workroom shall not exceed 70 kg.
Waste material storage
5.4.2.8. Waste cellulose nitrate plastic materials such as shavings, chips, turnings, sawdust edgings and trimmings shall be kept under water in metal receptacles until removed from the premises.
Subsection 5.4.3.Storage of Finished Products
Ventilation
5.4.3.1. Areas where cellulose nitrate plastic finished products are stored shall be ventilated so that any decomposition gases produced by the plastics will be vented outdoors to an area where they will not re-enter the building.
Heating appliance restrictions
5.4.3.2. (1) Cellulose nitrate plastics shall not be stored
(a) in rooms containing fuel burning appliances or electrical heating elements, or
(b) within 600 mm of any steam pipe, radiator or chimney.
Storage vaults
5.4.3.3. (1) Where cellulose nitrate plastics in excess of 11 kg are stored in any fire compartment in a building, a vented cabinet or vault constructed in conformance with NFPA 40E, “Storage of Pyroxylin Plastic”, and Articles 5.4.3.4. and 5.4.3.5. shall be provided for its storage.
(2) Not more than 9000 kg of cellulose nitrate plastics shall be stored in any vault.
5.4.3.4. (1) Where quantities do not exceed 3400 kg, cellulose nitrate plastics shall be stored in a vault that
(a) has a fire-resistance rating of 1½ hr,
(b) is designed to resist an internal pressure of 3.5 kPa,
(c) is not greater than 40 m3 in volume,
(d) has explosion venting of 0.1 m2 of venting area to the exterior for every cubic metre of vault volume, and
(e) is ventilated to the exterior to provide 200 cm2 of ventilating area for each cubic metre of vault volume.
5.4.3.5. (1) Where quantities exceed 3400 kg but do not exceed 9000 kg, cellulose nitrate plastics shall be stored in a vault that
(a) has a 4-hr fire-resistance rating,
(b) is designed to resist an internal pressure of 28 kPa,
(c) has explosion venting of 650 cm2 of venting area to the exterior for every cubic metre of vault volume, and
(d) is ventilated to the exterior to provide 200 cm2 of ventilating area for each cubic metre of vault volume.
Subsection 5.4.4.Cellulose Nitrate Motion Picture Film
Restricted use
5.4.4.1. Cellulose nitrate motion picture film shall not be used, stored or handled in a place of public assembly.
Storage and handling
5.4.4.2. Cellulose nitrate motion picture film shall be stored and handled in conformance with NFPA 40, “Storage and Handling of Cellulose Nitrate Motion Picture Film”.
5.4.4.3. When not in use, cellulose nitrate motion picture film shall be kept in closed, single-roll containers.
Subsection 5.4.5.Fire Protection
Sprinkler systems
5.4.5.1. The manufacture and storage of articles of cellulose nitrate plastic in quantities exceeding 45 kg shall be only in buildings equipped with a system of automatic sprinklers installed in conformance with NFPA 13, “Installation of Sprinkler Systems”.
SECTION 5.5AMMONIUM NITRATE
Subsection 5.5.1.Application
Application
5.5.1.1. This Section applies to the storage of ammonium nitrate in quantities exceeding 900 kg in the form of crystals, flakes, grains or prills, including fertilizer grade or other mixtures containing 60 per cent or more ammonium nitrate by weight, but does not apply to blasting agents or fertilizer storage on railways regulated by the Canadian Transport Commission or on privately operated farms.
Subsection 5.5.2.Exposure
Clearances from storage facilities
5.5.2.1. (1) Except as provided in Sentences (2) and (3), the distance between an ammonium nitrate storage facility and the property line of another property shall be not less than 90 m, except that the distance may be reduced to
(a) 30 m where the other property contains a building classified as a Group ‘F’ occupancy, flammable liquid storage tanks, flammable gas storage tanks or other tanks containing a hazardous substance, or
(b) 15 m where the other property contains a warehouse for flammable liquids storage or a facility for loading or unloading flammable liquids.
(2) Storage facilities for up to 200 t of ammonium nitrate shall be located not closer than 15 m from a property containing a building classified as a Group ‘F’ Division 2 or 3 occupancy, except that this distance may be reduced to 7.5 m when a 2-hr firewall is provided between the storage facility and the building it exposes.
(3) Storage facilities for more than 200 t of ammonium nitrate shall be located not closer than 15 m from a property containing a building classified as a Group ‘F’ Division 2 or 3 occupancy when a 2-hr firewall is installed between the storage facility and the building it exposes.
(4) The use of buildings or structures that do not conform with the provisions of this Subsection may be approved where the buildings or structures do not constitute a hazard to life or property from fire or explosion.
Subsection 5.5.3.Storage Buildings
Restrictions on buildings
5.5.3.1. (1) Ammonium nitrate shall not be stored in buildings which are more than 1 storey in building height.
(2) The walls of the exposed side of a storage building within 15 m of a combustible building, forest, pile of combustible materials and similar combustible materials shall be noncombustible, except that other forms of exposure protection may be used where approved by the Chief Fire Official.
5.5.3.2. (1) Ammonium nitrate shall not be stored in buildings having cellars, basements, open floor drains, tunnels or other pockets that might trap molten ammonium nitrate in the event of fire.
(2) Elevator pits and similar pits may be installed in the floor of a storage facility where vented to the exterior.
Ventilation
5.5.3.3. Ammonium nitrate shall not be stored in buildings having less than 70 cm2 of openable vent area for each square metre of storage area unless mechanical ventilation is provided by equipment protected from the storage room by a fire separation having a 1-hr fire-resistance rating.
Subsection 5.5.4.Storage
Pile dimensions
5.5.4.1. The height and width of piles of bagged ammonium nitrate in warehouses shall not exceed 6 m.
Pile locations
5.5.4.2. Bags of ammonium nitrate in warehouses shall not be stacked closer than 914 mm from the roof, overhead supporting beams or sprinkler head deflectors.
Pallet channels
5.5.4.3. Where there is palletized storage of bagged ammonium nitrate in warehouses, pallet channels shall be at right angles to aisles.
Aisles
5.5.4.4. (1) Aisles of a minimum of 1 m in width shall be provided in warehouses to separate piles of ammonium nitrate.
(2) At least 1 aisle not less than 1.2 m in width shall be provided along the entire length of the storage area.
5.5.4.5. Unless constructed of noncombustible material or unless adequate facilities for fighting a roof fire are available, bulk storage structures shall not exceed a height of 12 m.
Bulk storage
5.5.4.6. Bulk storage of ammonium nitrate shall be located in warehouses, except that separate bin-type structures conforming to Article 5.5.4.7. may be used.
Bins
5.5.4.7. Bins described in Article 5.5.4.6. shall not contain galvanized iron, copper, lead or zinc, or other materials that may contaminate or be corroded by ammonium nitrate.
Identifying signs
5.5.4.8. Ammonium nitrate storage bins or piles shall be identified by signs of contrasting colours indicating the contents with letters 50 mm high.
Subsection 5.5.5.Fire Hazards
Smoking and open flames prohibited
5.5.5.1. (1) Smoking and the use of open flames shall be prohibited in buildings used for the storage of ammonium nitrate.
(2) Signs with letters 50 mm high indicating that ammonium nitrate is being stored and that smoking is not permitted shall be prominently displayed near each entrance on the exterior of buildings identified in Sentence (1).
Heating equipment
5.5.5.2. Heating equipment shall be separated from any storage area in conformance with the requirements of the Building Code.
Restricted use of mobile equipment
5.5.5.3. Mobile internal-combustion equipment may be used in storage buildings in conformance with Section 3.4.
Bags and containers
5.5.5.4. Bags and containers used for ammonium nitrate shall be in conformance with Part 73 of the Regulations for the Transport of Dangerous Commodities by Rail (Canada), as prepared by the Canadian Transport Commission.
Storage temperature
5.5.5.5. (1) Ammonium nitrate shall be stored at a storage facility where the ambient air temperature does not exceed 54oC.
(2) Ammonium nitrate having a temperature higher than 54oC shall not be transferred to the storage area.
Disposal
5.5.5.6. (1) Spilled ammonium nitrate material shall be disposed of in conformance with Sentences (2) to (5).
(2) Uncontaminated material may be rebagged in suitable slip-over bags and sealed to prevent spillage.
(3) Unsalvageable material shall be removed by sweeping and burial.
(4) After flushing and scrubbing contaminated areas very thoroughly to dissolve all material, the residue shall be washed away with hoses.
(5) Empty bags shall be disposed of by burning out of doors where permitted in a safe area or buried.
Explosives prohibited
5.5.5.7. Explosives shall not be used to break up caked ammonium nitrate.
Subsection 5.5.6.Fire Protection
Automatic sprinklers
5.5.6.1. (1) Ammonium nitrate shall be stored only in buildings equipped with an automatic sprinkler system installed in conformance with NFPA 13, “Installation of Sprinkler Systems”.
(2) Sentence (1) does not apply where the existing situation is approved and does not endanger life safety or alternative measures to the requirements set out in Sentence (1) are taken to provide life safety.
Portable extinguishers
5.5.6.2. Portable extinguishers shall be installed in conformance with Section 6.2.
SECTION 5.6COMPRESSED GAS CYLINDERS
Subsection 5.6.1.General
5.6.1.1. (1) A requirement of this Section shall be deemed to be complied with if alternative protection measures are approved that, in the opinion of the Chief Fire Official, will provide protection for life safety and health similar to the protection provided by compliance with the requirement.
(2) A proposal for alternative protection measures referred to in Sentence (1) shall bear the signature and seal of a Professional Engineer or Architect, or both.
(3) This Section does not apply to facilities at which compressed gases are manufactured or cylinders are filled or distributed if the storage and handling of the compressed gases is in conformance with
(a) CGA P-1, “Safe Handling of Compressed Gases in Containers”,
(b) NFPA 55, “Storage, Use and Handling of Compressed and Liquefied Gases in Portable Cylinders”, or
(c) a procedure that bears the signature and seal of a Professional Engineer.
(4) Articles 5.6.2.1. to 5.6.2.4. do not apply where the amount of compressed gas stored does not exceed
(a) 25 kg of flammable compressed gas, or
(b) 150 kg of non-flammable compressed gas.
(5) Despite Sentence (4), Articles 5.6.2.1. to 5.6.2.4. apply to any amount of poisonous or corrosive compressed gas.
5.6.1.2. (1) Cylinders containing compressed gas shall be protected against mechanical damage.
(2) Cylinders containing compressed gas shall be stored to hold them securely in place
(a) on racks,
(b) by nesting, or
(c) by approved methods or devices.
Acetylene cylinders
5.6.1.3. Except when being transported, acetylene cylinders shall be kept in an upright position.
Valve damage
5.6.1.4. Cylinders containing compressed gas which are in storage shall be protected against valve damage.
Temperature limitations
5.6.1.5. Cylinders containing compressed gas shall be stored in areas where the ambient air temperature does not exceed 52oC.
Ventilation
5.6.1.6. (1) Where cylinders containing compressed gas are stored indoors, the storage areas or rooms shall be
(a) dry, and
(b) ventilated in accordance with Sentence 5.6.2.4.(4).
Oxygen cylinders
5.6.1.7. Oil or grease shall not be used for the lubrication of valves or fittings on oxygen cylinders.
Subsection 5.6.2.Storage
Outdoor platforms
5.6.2.1. Where cylinders containing compressed gas are stored outdoors, they shall be supported on raised concrete or other noncombustible platforms protected from the weather by a noncombustible canopy in an enclosure surrounded by a firmly anchored fence and used for the sole purpose of such storage.
Fencing
5.6.2.2. (1) The fence required in Article 5.6.2.1. shall
(a) be designed to discourage climbing,
(b) be substantially constructed with a minimum height of 1.8 m, and
(c) be equipped with a gate to be kept locked when the enclosure is not staffed.
Clearances from building openings
5.6.2.3. (1) Cylinders containing compressed gas and located outdoors shall be
(a) at least 1.5 m from any building opening if the aggregate capacity of expanded gas is not more than 170 m3,
(b) at least 7.5 m from any building opening if the aggregate capacity of expanded gas is over 170 m3 but not more than 500 m3, or
(c) at least 15 m from any building opening if the aggregate capacity of expanded gas is over 500 m3.
(2) Sentence (1) does not apply if the building opening is into a room that conforms to Sentence 5.6.2.4.(1).
Indoor storage of flammable compressed gases
5.6.2.4. (1) Except as provided in Sentences (2) and (3), cylinders containing flammable compressed gas stored indoors shall be located in a room that
(a) is separated from the remainder of the building by a fire separation having a 2-hr fire-resistance rating,
(b) is located on an exterior wall of the building,
(c) can be entered from the exterior,
(d) if it has doors into the interior of the building, they are equipped with self-closing and latching devices, have a fire-protection rating of at least 1.5 hr and are constructed so as to prevent migration of gases from the room into other parts of the building,
(e) is constructed so that an exterior wall provides explosion venting
(i) in the ratio of 0.2 m2 for each cubic metre of room volume, or
(ii) in the ratio computed in accordance with NFPA 68, “Guide for Venting of Deflagrations”, except in no case less than 650 cm2 of vent area for each cubic metre of room volume,
(f) has ventilation conforming to Sentence (4),
(g) does not contain fuel fired equipment or high temperature heating elements, and
(h) is used for no purpose other than the storage of compressed gas.
Flammable compressed gases lighter than air
(2) Cylinders of flammable, lighter than air compressed gas may be stored in rooms other than those described in Sentence (1),
(a) in a building of combustible construction that is not sprinklered where the aggregate capacity of expanded gas is not more than 60 m3,
(b) in a sprinklered building of combustible construction where the aggregate capacity of expanded gas is not more than 170 m3, or
(c) in a building of noncombustible construction where the aggregate capacity of expanded gas is not more than 170 m3.
Flammable compressed gases heavier than air
(3) Cylinders of flammable compressed gas which are heavier than air may be stored in rooms other than those described in Sentence (1) if they are stored in a fire compartment having a fire-resistance rating of at least ¾ hr and
(a) the aggregate capacity does not exceed 100 kg,
(b) the number of cylinders does not exceed 3,
(c) the cylinders are not located in the basement or other areas below grade, and
(d) the fire compartment has ventilation conforming to Sentence (4).
Ventilation
(4) The ventilation required by Clauses (1)(e) and (3)(d) shall be
(a) mechanical ventilation to the outside that ensures at least 1 air change per hour, or
(b) natural ventilation to the outside through non-closeable louvred openings with
(i) at least one opening no more than 0.3 m from the ceiling and one opening no more than 0.3 m from the floor,
(ii) all openings at ceiling level having an aggregate free opening area of at least 0.2 m2 per 100 m2 of the floor area,
(iii) all openings at floor level having an aggregate free opening area of at least 0.2 m2 per 100 m2 of the floor area, and
(iv) the openings located to ensure cross ventilation.
5.6.2.5. RESERVED
5.6.2.6. Cylinders containing poisonous compressed gas shall not be stored in a room containing combustible or flammable material.
Reactive gases
5.6.2.7. (1) Except as provided in Sentences (2) and (3), cylinders containing compressed gases that may react with one another shall be stored in separate fire compartments separated by a fire separation having a fire-resistance rating of at least 1 hr.
(2) Cylinders containing compressed gases that are lighter than air and that may react with each other may be stored in the same fire compartment if they are separated
(a) by a distance of at least 7.5 m, or
(b) by a concrete or masonry wall having a height of at least 2.0 m and projecting at least 1.0 m beyond the cylinders.
(3) Cylinders containing compressed gases that may react with each other and are heavier than air may be stored in the same fire compartment if they are separated
(a) by a distance of at least 15 m, or
(b) by a concrete or masonry wall having a height of at least 1.5 m, and projecting such that the minimum vapour travel distance between two cylinders of gases that may react with each other is not less than 15 m, measured horizontally.
Signs
5.6.2.8. Storage rooms shall have exterior signs with minimum 50 mm high letters indicating the nature of the compressed gases.
SECTION 5.7REACTIVE SUBSTANCES
RESERVED
SECTION 5.8CORROSIVE LIQUIDS
RESERVED
SECTION 5.9OXIDIZING MATERIALS
RESERVED
SECTION 5.10COMBUSTIBLE DUST PRODUCING PROCESSES
Subsection 5.10.1.Dust Collection
Mechanical exhaust systems
5.10.1.1. Machinery that produces, agitates or conveys combustible dusts shall have or be connected to a mechanical exhaust system to the outside atmosphere and dust-tight casings or enclosures.
5.10.1.2. (1) Building and machinery surfaces shall be kept clean by a vacuum apparatus listed and labelled for use in atmospheres containing combustible dusts.
(2) The vacuum cleaning machine required in Sentence (1) and ancillary piping, suction hose and tools shall be electrically conductive and grounded.
(3) Compressed air or other compressed gases shall not be used to blow dust from surfaces inside buildings.
Dust-collecting equipment
5.10.1.3. Dust-collecting equipment shall be installed where necessary to keep the accumulation of dust at a safe concentration in the interior of the building.
5.10.1.4. (1) Dust-collecting systems shall be made of noncombustible material.
(2) Dust-collecting systems shall be of a design which will prevent sparks due to physical contact in the fan assembly.
5.10.1.5. (1) Except where specifically designed and manufactured for internal use, dust-collectors shall
(a) be located outside buildings, or
(b) be equipped with exhaust stacks or ducts leading to the outside.
Grounding
5.10.1.6. Electrically conducting parts of duct systems, dust-collectors and the machines they serve shall be grounded.
Explosion venting
5.10.1.7. Except as provided in Article 5.10.1.11., manufacturing activities that produce, agitate, or convey combustible dusts shall be located only in buildings which have explosion venting to the outdoors.
5.10.1.8. Dust-collectors within buildings shall be designed with explosion venting to the exterior.
Interlocks
5.10.1.9. Equipment required to have a dust exhaust system shall not be capable of operating until the dust exhaust system is in operation.
Air velocity
5.10.1.10. Dust-collector systems shall be designed for an air velocity in the ducts of at least 1068 m/min.
Vent stacks
5.10.1.11. (1) Permanently open vent stacks may be used to ventilate storage containers where mechanical dust-collector systems are not practical, provided that the vent stacks
(a) have a cross-sectional area not less than twice that of spouts discharging into the container,
(b) are installed not more than 30 degrees from the vertical,
(c) extend from the top of the container to a point not less than 1.2 m above the roof, and
(d) are designed to prevent the entry of snow and rain.
Separators
5.10.1.12. Magnetic or pneumatic separators shall be installed to prevent the entrance of foreign materials that may cause sparks in equipment such as shellers, crackers, crushers, grinding machines, pulverizers or similar machines that produce combustible dusts.
Grounding
5.10.1.13. Machinery and metal parts of the equipment in Article 5.10.1.12. and related conveying systems shall be electrically grounded.
Ignition sources prohibited
5.10.1.14. Smoking, open flame and spark-producing equipment shall not be allowed in areas containing combustible dust producing operations.
SECTION 5.11COMBUSTIBLE FIBRES
Subsection 5.11.1.Storage
Building sizes
5.11.1.1. Buildings used for the storage and handling of baled combustible fibres shall comply with the height and area limitations of the Building Code for Group ‘F’ Division 2 occupancies.
Loose fibre storage
5.11.1.2. (1) Up to 3 m3 of loose combustible fibres may be kept in any building provided storage is in a container complying with Articles 2.4.1.9. and 2.4.1.10.
(2) Quantities of loose combustible fibres exceeding 3 m3 but not exceeding 15 m3 shall be stored in rooms separated from the remainder of the building by a fire separation having a 1-hr fire-resistance rating.
(3) Quantities of loose combustible fibres exceeding 15 m3 but not exceeding 30 m3 shall be stored in rooms separated from the remainder of the building by a fire separation having a 2-hr fire-resistance rating.
(4) Quantities of more than 30 m3 of loose combustible fibres shall not be stored in an individual room unless the room is sprinklered and separated from the remainder of the building by a fire separation having a 2-hr fire-resistance rating.
Baled fibre storage
5.11.1.3. (1) Baled combustible fibres shall be stored so that
(a) a single pile will not contain more than 700 m3,
(b) the maximum height of any single pile will not exceed 4.5 m,
(c) piles are separated by aisles not less than 1.5 m wide, and
(d) the clearance between piles and building walls is not less than 1 m.
Baled storage piles
5.11.1.4. The sides of baled storage piles shall be inclined back from the base of the pile with a slope of not less than 1 m for each 10 m of height.
5.11.1.5. (1) The clearance between sprinkler head deflectors and the tops of piles shall not be less than 457 mm.
(2) Where the storage piles are above the lower chords of floor or roof structural framing members, a horizontal clear space of 300 mm shall be maintained between the storage and the structural members.
Heating equipment
5.11.1.6. (1) Storage areas for combustible fibres shall not contain fuel fired appliances or electrical heating elements.
(2) Shields shall be provided that will prevent stored material from coming within 300 mm of any part of the heating system.
Subsection 5.11.2.Fire Protection
Standpipe and hose system installations
5.11.2.1. Combustible fibres shall be stored only in warehouses which are protected by standpipe and hose systems installed in conformance with the Building Code.
Portable extinguishers
5.11.2.2. Portable extinguishers shall be provided in conformance with Section 6.2.
Smoke vents
5.11.2.3. Where combustible fibres are stored in buildings, automatic smoke venting hatches manually operable from remote locations and having a combined opening area of 64 cm2 for each square metre of floor area shall be provided.
SECTION 5.12SPRAY APPLICATIONS USING FLAMMABLE AND COMBUSTIBLE MATERIALS
Subsection 5.12.1.Location
5.12.1.1. Spray operations shall be separated from the remainder of the building in conformance with the Building Code, where applicable.
Subsection 5.12.2.Construction
General
5.12.2.1. (1) A spray booth shall consist of a steel frame covered with sheet steel having a minimum thickness of 1.14 mm, or be of equivalent noncombustible construction.
(2) The interior surfaces of a spray booth shall be smooth and continuous.
(3) The floor of a spray booth and the operator’s working area shall be of noncombustible materials.
Baffle plates
5.12.2.2. (1) Spray booth baffle plates shall be of noncombustible material and be removable or arranged to facilitate cleaning.
(2) Spray booth baffle plates shall not be located in exhaust ducts.
Filters in ducts
5.12.2.3. Filters in ducts used to ventilate spraying areas shall be made from noncombustible material or have a rate of combustibility no greater than Class 2 filters conforming to CAN4-S111, “Standard Method of Fire Tests for Air Filter Units”.
Fan blades and casings
5.12.2.4. (1) Except as permitted in Sentence (2), fan blades and casings in exhaust blowers for spray booths shall be nonferrous.
(2) Ferrous material for the fan blades and casings may be approved if the exhaust blower is designed, constructed and maintained to prevent two ferrous parts from rubbing or striking each other under all operating conditions.
Subsection 5.12.3.Ventilation
Ventilation
5.12.3.1. Ventilation shall be provided in all spraying areas to maintain the concentration of flammable vapours and combustible dusts at or below 25 per cent of their lower explosive limit.
Air velocity
5.12.3.2. Except as provided in Article 5.12.3.3., the exhaust air velocity at the face of the spray booth shall be at least 30 m/min.
5.12.3.3. Electrostatic spraying shall have an exhaust air velocity of at least 18 m/min at the face of the spray booth.
Combined ducting
5.12.3.4. A separate exhaust duct shall be provided for each spray booth, except that a common duct may be used if it serves spray booths having a combined open frontal area of not more than 1.8 m2.
Exhaust air
5.12.3.5. Air exhausted from spray operations shall not be recirculated, except where recirculation is acceptable, as described in NFPA 33, “Spray Application Using Flammable and Combustible Materials”.
Monitoring air velocity
5.12.3.6. (1) Gauges or alarms that indicate when the air velocity is less than the air velocity required by Article 5.12.3.2. or 5.12.3.3. shall be installed for spray booths.
(2) When the gauge or alarm indicates that the air velocity is less than that required by Article 5.12.3.2. or 5.12.3.3., immediate corrective action shall be taken to remedy the condition that has resulted in the reduction of the ventilation.
Subsection 5.12.4.Exhaust Ducts
Duct support and construction
5.12.4.1. Exhaust ducts for spray booths shall be securely supported and constructed of sheet steel in conformance with Table 5.12.4.A.
TABLE 5.12.4.A.
Forming Part of Article 5.12.4.1.
Maximum Dimension |
Minimum Thickness Of Sheet Steel, mm |
Up to 200 mm incl. Over 200 mm to 450 mm incl. Over 450 mm to 750 mm incl. Over 750 mm |
0.56 0.69 0.86 1.14 |
Column 1 |
2 |
Clearances
5.12.4.2. Except as provided in Article 5.12.4.3., a clearance of 457 mm shall be maintained between ducts venting spray booths and unprotected combustible material.
Collars
5.12.4.3. (1) Where exhaust ducts pass through combustible roofs or partitions, metal collars shall provide not less than a 100 mm clearance between the duct and combustible material.
(2) The space between the duct and combustible material shall be sealed with noncombustible insulating material.
Access doors
5.12.4.4. Exhaust ducts for spray booths shall be provided with access doors for cleaning purposes.
Exhaust outlet locations
5.12.4.5. (1) Except for water-wash types, the exhaust outlet to atmosphere from spray booths shall
(a) be 1.8 m from any combustible exterior wall or roof, and
(b) be located so that the air does not discharge toward any combustible surface or unprotected opening within 7.5 m.
Subsection 5.12.5.Electrical Equipment
Hazardous locations
5.12.5.1. Electrical equipment within the spraying area including lighting fixtures shall conform to Part 1, Sections 18 and 20 of the Electrical Safety Code made under the Electricity Act, 1998.
Motors for exhaust fans
5.12.5.2. Electric motors for exhaust fans shall not be placed inside spray booths or ducts.
Grounding
5.12.5.3. Metal parts of spray booths, exhaust ducts and piping systems conveying flammable or combustible liquids shall be electrically grounded.
Subsection 5.12.6.Flammable and Combustible Liquids
Storage and handling
5.12.6.1. (1) Flammable and combustible liquids for use in spraying areas shall be stored and handled in an approved manner.
(2) The amount of flammable and combustible liquids in the spraying areas shall not exceed one day’s supply.
Paint storage
5.12.6.2. Paint shall be kept in closed containers when not in use.
Thinners and solvents
5.12.6.3. Thinners and solvents shall be dispensed only from listed and labelled safety cans.
Pump discharge relief valves
5.12.6.4. Where flammable liquids are supplied to spray nozzles by positive displacement pumps, the pump discharge line shall be provided with a suitable relief valve discharging to the pump suction or to a safe remote location.
Subsection 5.12.7.Control of Fire Hazards
Interlocks
5.12.7.1. The spraying equipment for a spray booth shall be interlocked to shut down in the event of failure of the ventilation system, failure of the circulating water pump of a water-wash system or failure of the filter roll-down mechanism of a dry spray booth.
Cleaning and residue disposal
5.12.7.2. (1) The inner surface of spray booths shall be cleaned of combustible residue as often as necessary to prevent a fire hazard.
(2) Combustible residue from cleaning operations shall, on the same day as the cleaning operations, be removed from the premises or placed in receptacles conforming to Articles 2.4.1.9. and 2.4.1.10.
Filter pads and rolls
5.12.7.3. Discarded filter pads and filter rolls shall be removed to a safe location or placed in a water-filled metal container and disposed of after each day’s operation.
Filters prohibited
5.12.7.4. A water-wash spray booth shall be used when applying spray material that is susceptible to spontaneous heating.
Heating equipment
5.12.7.5. Space-heating appliances, steam pipes and other hot surfaces shall not be located in an area where deposits of combustible residue may accumulate.
Ignition sources
5.12.7.6. Open flame or spark producing devices shall not be used within a spraying area, unless separated therefrom by a vapour-tight fire separation having a 1-hr fire-resistance rating.
Subsection 5.12.8.Fire Protection Equipment
Portable extinguishers
5.12.8.1. Portable extinguishers shall be installed near spraying areas in conformance with Section 6.2.
Sprinkler installations
5.12.8.2. (1) Except as permitted in Sentences (2) and (3), automatic sprinkler protection shall be provided in each spraying area, spray booth and spray room in conformance with NFPA 13, “Installation of Sprinkler Systems”.
(2) Where spraying operations are confined within a spray booth, fire protection may be provided for the spray booth only, in conformance with NFPA 33, “Spray Application Using Flammable or Combustible Materials”.
(3) This Article does not apply where the existing situation is approved and does not endanger life safety, or approved alternative measures to the requirements set out in this Article are taken to provide life safety.
Sprinkler head protection
5.12.8.3. (1) Sprinkler heads in spray booths shall be protected with lightweight paper or thin polyethylene bags.
(2) Bags protecting sprinkler heads shall be replaced before they have accumulated excessive deposits.
Subsection 5.12.9.Drying Operations
Spray booths used for drying
5.12.9.1. Except as permitted in Article 5.12.9.4., spray booths, spray rooms or other enclosures used for spraying operations shall not be used for drying by any arrangement that could cause an increase in the surface temperatures of the spray booths, spray rooms or other enclosures.
Location of equipment
5.12.9.2. Except as provided in Articles 5.12.9.3. and 5.12.9.4., drying or curing equipment that utilizes components capable of producing ignition, such as an open flame, a spark, or a hot surface, shall not be installed in or near a spraying area.
5.12.9.3. (1) Equipment described in Article 5.12.9.2. may be installed in an area adjacent to the spraying area provided the adjacent area is equipped with a ventilating system arranged to
(a) purge the drying space before the heating system can be started,
(b) maintain the atmosphere at any source of ignition at or below 25 per cent of the lower explosive limit of any combustible or flammable materials in use, and
(c) automatically shut down the heating system in the event of failure of the ventilating system.
Spray booths used for drying
5.12.9.4. (1) Spray booths may be used for drying operations where
(a) the spray booth conforms to the appropriate requirements for drying ovens in Section 5.18,
(b) the interior of the enclosure is kept reasonably free of over-spray deposits,
(c) portable drying apparatus, if used, is of the infrared type, and such apparatus, wiring and connections are removed from the enclosure during spraying operations, and
(d) interlocks are installed to
(i) prevent the use of spraying apparatus while the drying operation is taking place,
(ii) provide for the purging of the enclosure of spray vapours for a minimum of 3 min before the drying apparatus can be energized,
(iii) ensure that the ventilating system maintains the concentration of flammable vapours at or below 25 per cent of the lower explosive limit within the enclosure during the drying process, and
(iv) ensure that the drying apparatus will automatically shut off in the event of failure of the ventilating system.
SECTION 5.13DIP TANKS
Subsection 5.13.1.Location
5.13.1.1. Dip tank operations involving flammable or combustible liquids where the quantity exceeds 45 L or the liquid surface area exceeds 0.42 m2 shall be conducted in a room designed for that purpose and separated from the remainder of the building by a fire separation having a 2-hr fire-resistance rating.
5.13.1.2. Dip tanks shall not be located in cellars or basements.
Subsection 5.13.2.Construction
Floors
5.13.2.1. The floor of any room where dip tanks are located shall be made liquid tight with material that is impervious to the liquid in the tank, have permanent curbs and be drained to a place of safe discharge.
Materials
5.13.2.2. (1) Dip tanks and drain boards shall be constructed of noncombustible material with steel, reinforced concrete or masonry supports.
(2) Drain boards shall be arranged to drain back to the dip tank.
Height above floor
5.13.2.3. The top of a dip tank shall not be less than 150 mm above the floor of the room in which it is located.
Covers
5.13.2.4. Dip tank covers as required in Articles 5.13.6.2. and 5.13.6.3. shall be of noncombustible materials.
5.13.2.5. Dip tank covers shall overlap the sides of the tank by 25 mm and shall have a recess or flange extending down around the tank.
5.13.2.6. Dip tank covers shall be maintained in good operating condition.
Subsection 5.13.3.Overflow and Drain Pipes
Liquid levels
5.13.3.1. The liquid level in a dip tank shall be kept not less than 150 mm below the top of the tank.
Overflow pipes
5.13.3.2. Dip tanks having a capacity in excess of 550 L or having a liquid surface area in excess of 1 m2 shall be equipped with a properly trapped overflow pipe that leads to a safe location outside the building or to a closed, vented salvage tank conforming to Subsection 5.13.4.
5.13.3.3. The centre line of the overflow connection to a dip tank shall be 150 mm below the top of the tank.
5.13.3.4. Overflow pipe sizes for dip tanks shall conform to Table 5.13.3.A.
TABLE 5.13.3.A.
Forming Part of Article 5.13.3.4.
Size of Tank, |
Overflow Pipe |
0 - 46 47 - 160 161 - 350 351 - 700 701 - 1025 1026 - 1500 1501 and over |
50 65 75 100 125 150 200 |
Column 1 |
2 |
5.13.3.5. Overflow pipes shall be connected to dip tanks by a flared outlet.
Piping connections
5.13.3.6. Piping connections for drains and overflow lines shall be designed so as to allow for easy access to their interiors for cleaning purposes.
Bottom drains
5.13.3.7. Dip tanks of over 2300 L liquid capacity shall be equipped with bottom drains capable of being operated both automatically and manually to drain the tank quickly in the event of fire.
5.13.3.8. Bottom drains from dip tanks shall be trapped and shall discharge to a closed, vented salvage tank.
5.13.3.9. Bottom drain sizes for dip tanks shall conform to Table 5.13.3.B.
TABLE 5.13.3.B.
Forming Part of Article 5.13.3.9.
Capacity of Dip Tank, L |
Diameter of Bottom Drain Pipe, Mm |
2300 - 3425 3426 - 4550 4551 - 11500 11501 - 18250 18251 and over |
75 100 125 150 200 |
Column 1 |
2 |
Manual operation of bottom drains
5.13.3.10. Manual operation of bottom drains shall be from an accessible location not affected by a fire in or around the dip tank.
Automatic pumps
5.13.3.11. Where gravity flow is not practical, automatic pumps shall be installed on drain lines from dip tanks.
5.13.3.12. Where salvage tanks are used, pumping arrangements shall be provided for the transfer of their contents for disposal.
Subsection 5.13.4.Salvage Tanks
Use
5.13.4.1. Salvage tanks shall be used only for temporary storage purposes.
Capacity
5.13.4.2. The capacity of a salvage tank shall be 20 per cent greater than the capacity of the dip tank or tanks to which it is connected.
Location
5.13.4.3. Salvage tanks shall be located underground in the yard or inside a building in an enclosure separated from the remainder of the building by a fire separation having a 2-hr fire-resistance rating.
Subsection 5.13.5.Control of Fire Hazards
Ventilation
5.13.5.1. Ventilation shall be provided to confine all flammable vapour concentrations exceeding 25 per cent of the lower explosive limit to within 600 mm of the dip tank, drain board and freshly coated work.
Interlocks
5.13.5.2. Ventilating systems shall be arranged so that the failure of any ventilation fan as sensed by air flow will automatically stop the dipping conveyor systems and sound an alarm.
5.13.5.3. The heating system used in drying operations shall be interlocked so that it cannot be started until the associated ventilation system is in operation.
Conveyor systems
5.13.5.4. Conveyor systems utilized in conjunction with dip tanks shall be designed to stop automatically with the actuation of an automatic fixed extinguishing system or a manual fire alarm.
Purging interlocks
5.13.5.5. Where there is a possible source of ignition in a drying operation, interlocks shall be installed to provide for purging before the heating system can be started and for automatic shutdown if the ventilation system should fail.
Electrical installations
5.13.5.6. Where flammable and combustible liquids contained in dip tanks are heated or have a flash point below 43oC, the electrical installation shall conform to the Electrical Safety Code made under the Electricity Act, 1998.
Flammable and combustible liquids
5.13.5.7. (1) The storage and handling of flammable and combustible liquids shall be in conformance with Part 4.
(2) The total number of containers for flammable and combustible liquids in a dip tank area shall not exceed that required for 1 day’s operations.
Ignition sources
5.13.5.8. Smoking, open flames, spark producing devices and heated surfaces having a temperature sufficient to ignite vapours shall not be permitted in the vapour area of a dip tank.
Signs prohibiting smoking
5.13.5.9. Signs that prohibit smoking and that conform to Article 2.4.3.2. shall be posted conspicuously in the vicinity of dip tanks.
Subsection 5.13.6.Fire Protection
Automatic sprinklers
5.13.6.1. Dip tanks shall be located only in rooms protected by an automatic sprinkler system installed in conformance with NFPA 13, “Installation of Sprinkler Systems”.
Tank covers and extinguishing systems
5.13.6.2. (1) Dip tanks with a capacity of over 550 L or over 1 m2 liquid surface area shall be protected by
(a) an automatic closing cover actuated by a device that also permits manual operation, or
(b) an approved automatic extinguishing system of a water spray, foam, carbon dioxide or dry chemical type.
5.13.6.3. Dip tanks containing either a flammable or combustible liquid with a flash point less than 43oC or a heated combustible liquid giving off flammable vapours shall conform to Article 5.13.6.2. when the capacity exceeds 45 L or when the liquid surface area exceeds 0.4 m2.
Portable extinguishers
5.13.6.4. Areas in the vicinity of dip tanks shall be provided with portable extinguishers in conformance with Section 6.2.
SECTION 5.14SPECIAL PROCESSES INVOLVING FLAMMABLE AND COMBUSTIBLE LIQUIDS
Subsection 5.14.1.Quench Tanks
Location
5.14.1.1. (1) Quench tanks shall be located as far as practical from annealing, hardening and tempering furnaces.
(2) Quench tanks shall not be located on or near combustible floors.
Hoods and vents
5.14.1.2. Quench tanks shall be provided with a noncombustible hood and vent exhausting to the outside of the building.
5.14.1.3. Vents for quench tanks shall conform to the requirements for flue pipes in Section 2.6.
High temperature limit switches
5.14.1.4. (1) A high temperature limit switch shall be provided to sound an alarm, shut off heat and stop conveyors when a flammable or combustible liquid reaches 28oC below its flash point in a quench tank.
(2) The temperature-sensing element for the high temperature limit switch in Sentence (1) shall be located close to the surface of the liquid and be protected from damage.
Electrical installations
5.14.1.5. Electrical installations conforming to the requirements for dip tanks in Article 5.13.5.6. shall be provided for quench tanks of over 1900 L capacity whose liquid surface area exceeds 2.5 m2.
Air pressure
5.14.1.6. Air under pressure shall not be used to fill or agitate oil in quench tanks.
Working temperatures
5.14.1.7. A quench tank shall be designed so that the maximum workload is incapable of raising the working temperature of the cooling medium to within 28oC of its flash point.
Subsection 5.14.2.Flow-Coating Operations
Application of dip tank requirements
5.14.2.1. (1) The requirements in Section 5.13 for dip tanks shall also apply to flow-coating operations.
(2) The sump area and any area on which paint flows shall be considered as the dip tank area for the purposes of these provisions.
Mechanical ventilation
5.14.2.2. Mechanical ventilation shall be provided at the rate of 63 m3 of fresh air per litre of solvent used.
5.14.2.3. Ventilation shall be arranged so that the flammable vapour concentration exceeding 25 per cent of the lower explosive limit will be confined to within 600 mm of the paint stream and drain area, freshly coated work and the drip tunnel bottom.
Interlocks
5.14.2.4. The ventilation system shall be interlocked to shut down the paint supply whenever fans are stopped as sensed by the air flow.
Supply
5.14.2.5. (1) Flammable or combustible liquids shall be supplied by
(a) direct low pressure pumping arranged to shut down automatically by means of listed and labelled devices in the event of fire, or
(b) a gravity tank not exceeding 45 L in capacity.
Subsection 5.14.3.Roll-Coating Processes
Application of dip tank requirements
5.14.3.1. The requirements in Section 5.13 for dip tanks shall also apply to roll-coating processes.
Grounding
5.14.3.2. (1) Rotating parts shall be grounded.
(2) Static collectors shall be installed where the material being coated leaves each rotating part.
Location
5.14.3.3. Operations involving materials that have been freshly coated with a liquid containing solvents having a flash point less than 43oC shall be located in sprinklered rooms that are separated from other occupancies by fire separations having a 2-hr fire-resistance rating.
Subsection 5.14.4.Electrostatic Spraying and Detearing Equipment
Equipment location
5.14.4.1. (1) Electrical components including transformers, power packs and control equipment for electrostatic spray applications or for the electrostatic removal of excess coating material (detearing) shall be located in an area where the vapour concentration of flammable or combustible liquids cannot exceed 25 per cent of the lower explosive limit.
(2) Sentence (1) does not apply to high voltage grids and their connections.
Interlocks
5.14.4.2. (1) Electrostatic spraying and detearing equipment shall be provided with automatic controls that will operate without a time delay to disconnect power to high voltage transformers and to signal the operator when
(a) stoppage of the air supply, ventilating fan or conveyor system occurs,
(b) there is a ground at any point on the high voltage system, or
(c) clearances are reduced below those specified in Article 5.14.4.4.
Insulators
5.14.4.3. Insulators shall be kept clean and dry.
Clearances
5.14.4.4. (1) A space equivalent to twice the sparking distance shall be maintained between articles being painted or deteared and electrodes or conductors.
(2) A sign shall be conspicuously posted near an electrical assembly stating the maximum sparking distance.
Drip plates and screens
5.14.4.5. Drip plates and screens subject to paint deposits shall be removable for cleaning.
Insulating and grounding
5.14.4.6. High voltage components, including atomizing heads, shall be insulated and protected against mechanical damage and accidental contact or grounding.
5.14.4.7. An automatic means shall be provided for grounding the electrode system when it is de-energized.
Operating distances
5.14.4.8. Items being electrostatically sprayed shall not be held by hand nor suspended in such a manner as to reduce the proper operating distance from the atomizing heads.
5.14.4.9. Electrostatic spraying equipment shall be located 1.5 m from processing equipment and isolated from other areas by grounded guards and fences of conducting material.
Surface temperatures
5.14.4.10. The surface temperature of equipment in a spraying area shall not exceed 66oC.
Precautions against shock
5.14.4.11. High voltage circuits shall be designed so that any discharge occurring will not ignite vapour-air mixtures or create a shock hazard.
Spray guns
5.14.4.12. The energy supply to hand spray guns shall be controlled by a switch that also controls the coating material supply.
5.14.4.13. Spray gun handles shall be grounded and have a metallic connection that is in direct contact with the operator’s hand during spraying.
Grounding
5.14.4.14. (1) Electrically conductive objects in the spraying area, including paint containers, wash cans and other objects, shall be grounded.
(2) A sign shall be posted in the spraying area indicating the need for the grounding of electrically conductive objects.
5.14.4.15. Hooks and other supports for sprayed items shall be kept clean and free of paint.
Warning signs
5.14.4.16. Signs designating the spraying area as dangerous shall be conspicuously posted.
Fixed extinguishing equipment
5.14.4.17. Spraying areas shall be located in rooms protected by listed and labelled automatic fixed extinguishing equipment.
Subsection 5.14.5.Automobile Undercoating
5.14.5.1. Automobile undercoating spray operations shall conform to the requirements of Section 5.12 or to the requirements in this Subsection.
Undercoating materials
5.14.5.2. (1) Automobile undercoating materials shall have a flash point of not less than 37.8oC.
(2) Where the flash point of an automobile undercoating is less than 60oC, it shall be applied in a work area where
(a) there are no work pits,
(b) there is a fan with nonferrous blades that provides mechanical ventilation during the application, cleaning and drying cycles at the rate of 72 m3/min per work station,
(c) air movement from the air intake and exhaust system is along the length of the vehicle being undercoated, and
(d) air is exhausted at a level approximately 1 m above the floor.
Ignition sources
5.14.5.3. (1) Work stations in Article 5.14.5.2. shall have no source of ignition located within 6 m horizontally of the work area or in the area above it.
(2) Signs prohibiting smoking that conform to Article 2.4.3.2. shall be posted at the outer limits of the work area.
Electrical installations
5.14.5.4. Except for overhead lighting that is totally enclosed and sealed with gaskets, electrical wiring and equipment within the area of hazard described in Article 5.14.5.3. shall conform to Article 5.1.3.1.
5.14.5.5. The storage and handling of flammable and combustible liquids shall be in conformance with Part 4.
Portable extinguishers
5.14.5.6. Portable extinguishers shall be located so that there is one portable extinguisher having a 20BC rating immediately accessible to each work station described in Article 5.14.5.2.
Refuse disposal
5.14.5.7. (1) Areas where automobile undercoating is used shall be kept clean of undercoating deposits and refuse.
(2) The deposits and refuse shall be placed in covered metal containers.
Subsection 5.14.6.Dry Powder Finishing
Location of operations
5.14.6.1. (1) Processes involving protective finishing material applied in dry powder form by powder spray guns, by electrostatic powder spray guns, by fluidized beds or by electrostatic fluidized beds shall be performed in rooms of noncombustible construction, in ventilated, enclosed, powder-coating facilities, or in spray booths conforming to Article 5.12.2.1.
Installation
(2) Electrostatic fluidized beds and associated equipment shall be installed in conformance with good engineering practice.
Location of electrical equipment
5.14.6.2. (1) Transformers, power packs, control apparatus and other electrical components shall be located outside the powder-coating area.
(2) Sentence (1) does not apply to charging electrodes and their components.
Working temperatures
5.14.6.3. (1) Where a part to be coated is preheated prior to the application of the powder, the temperature of the part shall not exceed the ignition temperature of the powder being used.
(2) The surface temperature of electrostatic fluidized bed coating areas shall not exceed 66oC.
Grounding
5.14.6.4. (1) Powder transport, application and recovery equipment shall be grounded.
(2) Electrically conductive objects within the charging influence of the electrodes of electrostatic fluidized beds shall be grounded.
(3) A sign shall be posted indicating the necessity of grounding equipment and objects identified in Sentences (1) and (2).
Electrical discharges
5.14.6.5. High voltage circuits in electrostatic fluidized beds shall be designed so that any discharge produced when the charging electrodes of the bed are approached or contacted by a grounded object will not be of sufficient intensity to ignite any powder-air mixture likely to be encountered or result in any appreciable shock hazard.
Separators
5.14.6.6. Separators shall be used to prevent tramp iron or other spark-producing materials from being introduced into the powders being applied.
Recovery systems
5.14.6.7. (1) Waste air-suspended powders shall be safely removed by exhaust ducts to a powder recovery system.
(2) Waste air-suspended powders shall not be released to the outside atmosphere.
Vacuum cleaning
5.14.6.8. Accumulations of waste dust from dry powder finishes shall be removed by vacuum cleaning equipment.
Contact points
5.14.6.9. Objects being coated shall be maintained in contact with the conveyor or other support.
5.14.6.10. Hangers for objects being coated shall be kept clean and have sharp points or edges at areas of contact.
Smoking prohibited
5.14.6.11. (1) Smoking shall not be permitted at powder-coating areas and in powder storage rooms.
(2) Signs prohibiting smoking that conform to Article 2.4.3.2. shall be conspicuously posted at all powder-coating areas and powder storage rooms.
Subsection 5.14.7.Organic Peroxides and Dual Component Coatings
Location of spraying operations
5.14.7.1. Spraying operations involving the use of organic peroxides and other dual component coatings shall be conducted in sprinklered spray booths as described in Sentence 5.12.8.2.(1).
Initiator storage
5.14.7.2. Organic peroxide initiators shall be stored so that they will be kept away from contact with other stored materials.
Handling equipment
5.14.7.3. Handling equipment, including spray guns, that are specifically designed for use with organic peroxides shall be used to apply dual component coatings.
Containers
5.14.7.4. Separate containers shall be used exclusively for the storage of resin and organic peroxide.
Pressure tank inserts
5.14.7.5. Organic peroxide pressure tank inserts shall be constructed of stainless steel, polyethylene or a material that is equally inert to organic peroxide.
Elimination of foreign materials
5.14.7.6. Precautions shall be taken to prevent any mixing of foreign materials with dusts or overspray residues resulting from the sanding or spraying of finishing materials containing organic peroxides.
5.14.7.7. RESERVED
SECTION 5.15RADIOACTIVE MATERIALS
Subsection 5.15.1.Application
Application
5.15.1.1. This Section applies to the storage and handling of radioactive material that emits ionizing radiation and that is present in quantities in excess of the scheduled quantity as defined in Schedule I of the Atomic Energy Control Regulations made under the Atomic Energy Control Act (Canada).
Subsection 5.15.2.Storage
5.15.2.1. Radioactive materials and equipment shall be returned to storage after use.
Storage
5.15.2.2. Radioactive materials shall be stored in accordance with the licence requirements and regulations of the Atomic Energy Control Board.
5.15.2.3. Radioactive materials and equipment shall not be stored with flammable or corrosive materials.
Subsection 5.15.3.Emergency Procedures
5.15.3.1. (1) Persons using or storing radioactive materials shall establish fire emergency procedures in consultation with the fire department including
(a) the location and identification of storage and use areas,
(b) methods to control a fire emergency and to recover radioactive materials and equipment containing radioactive materials safely and efficiently,
(c) the names, addresses and telephone numbers of primary and alternative sources of expert radiation safety advice and assistance, and
(d) the location of primary and alternative sources of radiation survey instruments.
SECTION 5.16FUMIGATION AND THERMAL INSECTICIDAL FOGGING
Subsection 5.16.1.Application
Application
5.16.1.1. (1) This Section applies to the fumigation or thermal fogging of buildings where this activity creates a fire or explosion hazard, including the fumigation of equipment or commodities within structures, tanks, bins or under tarpaulins.
Exceptions
(2) Articles 5.16.2.1. and 5.16.2.2. do not apply to industries that conduct frequent fumigation operations on a routine basis where approved prior to the conducting of the operations.
Subsection 5.16.2.Safety Precautions
Notification of fire department
5.16.2.1. (1) Except as permitted in Sentence 5.16.1.1.(2), the fire department shall
(a) be notified in writing at least 24 hours before any building is to be closed for fumigation, and
(b) be advised of the chemicals to be used, the proposed date and time of use, types of respiratory protective devices required and the degree of flammability of the fumigant or fog being used.
Notification of adjacent premises
5.16.2.2. Except as permitted in Sentence 5.16.1.1.(2), prior notice shall be given to the occupants of any premises adjacent to that in which fumigation or thermal insecticidal fogging is to take place.
Ignition sources
5.16.2.3. Flames and other sources of ignition shall be eliminated in a building undergoing fumigation or thermal insecticidal fogging.
Power supply
5.16.2.4. Electric power supply shall be shut off to the premises undergoing fumigation or thermal insecticidal fogging.
Air temperature
5.16.2.5. The air temperature in a building undergoing fumigation or thermal insecticidal fogging shall be kept sufficiently low to prevent the actuation of any sprinkler system.
Breathing apparatus
5.16.2.6. Protective breathing apparatus shall be made available at the premises undergoing fumigation or thermal insecticidal fogging for all persons in case of emergency.
Restricted entrance
5.16.2.7. (1) No person shall be permitted to enter a premises undergoing fumigation or thermal insecticidal fogging until the premises has been ventilated and is safe for human occupancy.
(2) Warning signs shall be posted in a conspicuous location near every entrance to the premises being fumigated.
5.16.2.8. RESERVED
SECTION 5.17WELDING AND CUTTING
Subsection 5.17.1.General
Application
5.17.1.1. The protection of persons and property from injury or damage by fire or other causes arising from electric and gas welding and cutting equipment, its installation, operation and maintenance, shall conform to CSA-W117.2, “Code for Safety in Welding and Cutting”, and to the requirements in this Section.
Subsection 5.17.2.Use and Maintenance of Equipment
Fuel gases
5.17.2.1. The operation of acetylene generating systems and the storage and generation of welding fuel gases shall conform to NFPA 51, “Oxygen-Fuel Gas Systems for Welding, Cutting and Allied Processes”, Chapter 6.
Piping
5.17.2.2. Acetylene gas shall not be piped through copper or high copper content alloy, tubing, piping or fittings.
Cylinder storage
5.17.2.3. Cylinders stored inside buildings shall conform to the requirements in Section 5.6.
5.17.2.4. Gas fuel cylinders, whether full or empty, whose valves are not in a recessed or protected location shall have their caps in place and their valves tightly closed when not in actual use.
Damaged equipment
5.17.2.5. Torches, regulators, hoses and other oxyacetylene welding and cutting equipment which have been damaged shall not be used.
5.17.2.6. (1) Welding equipment shall be inspected daily or prior to use for defects by personnel in charge of the equipment.
(2) Welding and cutting equipment shall be tested monthly for leaks with a leak test solution.
(3) Defects in equipment shall be made good before reusing.
Equipment not in use
5.17.2.7. Valves shall be closed and lines bled when equipment is not in actual use.
5.17.2.8. Oil or grease shall not be used for lubrication of welding and cutting equipment.
Subsection 5.17.3.Prevention of Fires
Location of operations
5.17.3.1. (1) Welding and cutting operations in buildings shall be carried out in areas that are free of combustible and flammable contents, and that have walls, ceilings and floors of noncombustible construction or that are lined with noncombustible materials.
(2) When it is not practical to undertake welding and cutting operations in areas described in Sentence (1), combustible and flammable materials shall either be kept at least 11 m from the work area or otherwise protected against ignition by sheet metal, asbestos blankets or other noncombustible material.
Work adjacent to piping
5.17.3.2. When welding or cutting is to be carried out near piping containing flammable gas, the section of the piping located within 1 m of the torch shall be covered with wet noncombustible insulating material 6 mm thick.
Work on containers
5.17.3.3. (1) Welding or cutting of metal containers shall not be undertaken until the containers and compartments within such containers have been cleaned of flammable and combustible materials and checked with an explosion meter.
(2) Welding or cutting operations shall not be undertaken on a totally enclosed container.
Portable extinguishers
(3) Suitable portable extinguishers shall be provided in conformance with Section 6.2 where welding or cutting operations take place.
SECTION 5.18INDUSTRIAL OVENS FOR BAKING AND DRYING PROCESSES
Subsection 5.18.1.Application
Application
5.18.1.1. This Section applies to industrial baking and drying ovens which during operation contain flammable vapours given off by the products being baked or dried.
Subsection 5.18.2.Location
5.18.2.1. Ovens shall not be located in any storey below grade.
Subsection 5.18.3.Construction
Oven materials
5.18.3.1. Industrial ovens shall be constructed of noncombustible materials with smooth interior surfaces to permit cleaning.
Limiting temperature on combustible construction
5.18.3.2. The roof and floor of ovens and heaters and associated ductwork shall have sufficient clearance or be insulated where necessary to prevent the temperature from exceeding 90oC at any combustible part of the building assembly.
Explosion vents
5.18.3.3. (1) Explosion vents shall be provided for ovens where fuel or vapour hazards are present.
(2) Explosion vents shall be designed in conformance with NFPA 91, “Exhaust Systems for Air-Conveying of Materials”, and shall have a venting ratio
(a) of 0.2 m2 of vent area for each cubic metre of oven volume, or
(b) computed in accordance with NFPA 68, “Guide for Venting of Deflagrations”, except in no case less than 650 cm2 of vent area for each cubic metre of oven volume.
(3) Openings or access doors equipped with explosion release hardware shall be acceptable as explosion vents.
Duct and stack restrictions
5.18.3.4. (1) Ducts, stacks and associated insulation in systems for the removal of flammable vapours shall
(a) be constructed of noncombustible materials,
(b) not pass through firewalls, and
(c) not discharge within 1.5 m of windows or within 6 m of other air intake openings.
Subsection 5.18.4.Ventilation
Oven ventilation
5.18.4.1. Ovens in which flammable vapours may be present or through which products of combustion are circulated shall be ventilated in accordance with NFPA 86, “Ovens and Furnaces”.
Fan interlocks
5.18.4.2. Where flammable vapours may be present in ovens, interlocks shall be provided to ensure that energy sources and ignition devices are de-activated when the ventilating fans stop or the excess temperature controls are activated.
5.18.4.3. Where flammable vapours may be present in continuous process ovens, interlocks shall be provided to ensure that ventilating fans are operating before conveyors can be started and that the stopping of ventilating fans or activation of the excess temperature controls will stop the conveyors.
Subsection 5.18.5.Maintenance
Cleaning of ovens and ductwork
5.18.5.1. (1) Ovens and associated ductwork shall be inspected, cleaned and maintained internally and externally at intervals sufficient to prevent the accumulation of combustible deposits.
(2) Access doors or panels shall be provided to permit inspection, cleaning and maintenance of ovens and associated ductwork.
(3) Fixed noncombustible ladders, steps or grab rails shall be provided to permit access to the doors or panels required in Sentence (2).
Subsection 5.18.6.Fire Protection
Portable extinguishers
5.18.6.1. Portable extinguishers shall be provided in conformance with Section 6.2.
Standpipe and hose systems
5.18.6.2. A standpipe and hose system shall be installed in conformance with the Building Code and equipped with shutoff spray nozzles so that all parts of an oven structure can be reached by a hose stream.
Fire access doors
5.18.6.3. Doors or other means of access shall be provided in ovens and associated ductwork so that portable extinguishers or hose streams may be used in all parts of the equipment.
5.18.6.4. Ovens containing or processing sufficient combustible materials to sustain a fire shall be protected by an automatic sprinkler system or other fixed extinguishing systems.
O. Reg. 388/97, Part 5; O. Reg. 302/99, ss. 3-5; O. Reg. 315/01, s. 2.
PART 6
FIRE PROTECTION EQUIPMENT
TABLE OF CONTENTS
SECTION 6.1 |
GENERAL |
Subsection 6.1.1. |
Scope |
SECTION 6.2 |
PORTABLE EXTINGUISHERS |
Subsection 6.2.1. |
General |
Subsection 6.2.2. |
Classification |
Subsection 6.2.3. |
Selection Requirements |
Subsection 6.2.4. |
Installation Requirements |
Subsection 6.2.5. |
Grading of Hazards |
Subsection 6.2.6. |
Distribution |
Subsection 6.2.7. |
Inspection, Testing and Maintenance |
SECTION 6.3 |
FIRE ALARM AND VOICE COMMUNICATION SYSTEMS FOR LIFE SAFETY |
Subsection 6.3.1. |
General |
Subsection 6.3.2. |
Check, Inspect and Test |
Subsection 6.3.3. |
Smoke Alarms — Testing and Maintenance |
SECTION 6.4 |
STANDPIPE AND HOSE SYSTEMS |
Subsection 6.4.1. |
General |
Subsection 6.4.2. |
Maintenance and Inspection of Hose Stations and Equipment |
Subsection 6.4.3. |
Testing |
SECTION 6.5 Subsection 6.5.1. Subsection 6.5.2. Subsection 6.5.3. Subsection 6.5.4. Subsection 6.5.5. Subsection 6.5.6. |
SPRINKLER SYSTEMS General Sprinkler System Shutdowns Checking Inspection Testing Maintenance |
SECTION 6.6 |
WATER SUPPLIES FOR FIRE PROTECTION |
Subsection 6.6.1. |
General |
Subsection 6.6.2. |
Tanks |
Subsection 6.6.3. |
Fire Pumps and Reservoirs |
Subsection 6.6.4. |
Hydrants |
Subsection 6.6.5. |
Inspection of Hydrants |
Subsection 6.6.6. |
Uniform Marking of Hydrants |
SECTION 6.7 |
EMERGENCY POWER SYSTEMS |
Subsection 6.7.1. |
General |
SECTION 6.8 |
SPECIAL EXTINGUISHING SYSTEMS |
Subsection 6.8.1. |
General |
SECTION 6.1GENERAL
Subsection 6.1.1.Scope
Scope
6.1.1.1. This Part provides for the installation, inspection, testing, maintenance and operation of portable extinguishers and the inspection, testing, maintenance and operation of fire alarm systems and voice communication systems, smoke alarms, standpipe and hose systems, automatic sprinkler systems, special extinguishing systems, water supplies for fire protection and emergency power installations. (See also Part 7)
SECTION 6.2PORTABLE EXTINGUISHERS
Subsection 6.2.1.General
6.2.1.1. Listed portable extinguishers shall be installed when replacing or adding new extinguishers.
Maintenance
6.2.1.2. Portable extinguishers shall be kept operable and fully charged.
Location
6.2.1.3. (1) Portable extinguishers shall be located so that they are easily seen and shall be accessible at all times.
Lockable cabinets
(2) A lockable, break-front glazed cabinet may be used for security purposes to store portable extinguishers and where portable extinguishers are located in a fire hose cabinet, an approved lockable, scored glass break-front cabinet may be used.
6.2.1.4. Portable extinguishers shall be located in or adjacent to corridors or aisles that provide access to exits.
Signs
6.2.1.5. The location of portable extinguishers shall be prominently indicated by signs or markings in large floor areas and in locations where visual obstructions cannot be avoided.
6.2.1.6. Portable extinguishers in proximity to a fire hazard shall be located in a position so as to be accessible without exposing the operator to undue risk.
Corrosive atmosphere
6.2.1.7. Portable extinguishers that are subject to damage in a corrosive atmosphere shall not be installed where a corrosive atmosphere exists unless supplementary corrosion protection that will protect the portable extinguishers is provided.
Temperature range requirements
6.2.1.8. (1) Where a portable extinguisher is to be located in an area subject to temperatures outside the range 4oC to 49oC it shall be
(a) placed in an enclosure where the temperature is maintained within this range, or
(b) of a type labelled for the temperatures to which it will be exposed.
Mounting brackets
6.2.1.9. When portable extinguishers are located on vehicles or in areas where they are subject to jarring or vibration, brackets designed to accommodate these effects shall be used.
Subsection 6.2.2.Classification
Rating of extinguishers
6.2.2.1. Portable extinguishers shall be rated and identified in conformance with National Standard of Canada CAN/ULC-S508, “Rating and Fire Testing of Fire Extinguishers”.
Subsection 6.2.3.Selection Requirements
Multiple ratings
6.2.3.1. Where portable extinguishers have been tested and are rated as being acceptable for fighting more than one class of fire, each class of fire for which they are acceptable shall be designated on each extinguisher.
Subsection 6.2.4.Installation Requirements
Where required
6.2.4.1. (1) Portable extinguishers shall be provided in conformance with Sentence 6.2.6.1.(1).
(2) Sentence (1) does not apply to dwelling units, including dwelling units in Section 9.8.
Distance above floor
6.2.4.2. Portable extinguishers with a gross weight greater than 18 kg shall be installed so that the top of the extinguisher is not more than 1.1 m above the floor when the extinguisher is not equipped with wheels.
6.2.4.3. Portable extinguishers having a gross weight of 18 kg or less shall be installed so that the top of the extinguisher is not more than 1.5 m above the floor.
Operating instructions
6.2.4.4. The operating instructions of portable extinguishers shall face outward when the extinguishers are located in cabinets, in wall recesses or on shelves.
Subsection 6.2.5.Grading of Hazards
Light hazard occupancy
6.2.5.1. Where the quantity of combustible material present is such that fires of small size may be expected, such as in offices, schoolrooms, churches, assembly halls and telephone exchanges, the occupancy shall be graded as light hazard.
Ordinary hazard occupancy
6.2.5.2. Where the quantity of combustible material present is such that fires of moderate size may be expected, such as in mercantile occupancies, display rooms, auto showrooms, parking garages, light manufacturing, warehouses not classified as extra hazard and school shop areas, the occupancy shall be graded as ordinary hazard.
Extra hazard occupancy
6.2.5.3. Where the quantity of combustible material present is such that fires of severe magnitude may be expected, such as in woodworking, auto repair, aircraft servicing, mercantile storage areas, warehouses with high-piled combustibles and processes incorporating flammable or combustible liquids, the occupancy shall be graded as extra hazard.
Subsection 6.2.6.Distribution
6.2.6.1. (1) Portable extinguishers shall be provided to protect the building, each hazardous occupancy inside the building and each hazardous process or operation located outside in conformance with this Subsection.
(2) Despite Sentence (1), in an unoccupied warehouse equipped with a fixed fire protection system, provision shall be made for portable extinguishers to be available for use by responding personnel.
(3) The location and number of portable extinguishers required under Sentence (2) shall be approved.
Building protection
6.2.6.2. Portable extinguishers that are provided to protect a building shall be suitable for fighting Class A fires and be available for use at all times.
Occupancy protection
6.2.6.3. Portable extinguishers that are provided to protect a hazardous occupancy shall be those required in this Section for fighting Class A, B, C or D fires.
Extinguishers for Class A fires
6.2.6.4. Except as required in Article 6.2.6.5., portable extinguishers for Class A fires shall be provided in conformance with Table 6.2.6.A.
6.2.6.5. Where a floor area is less than that shown in Table 6.2.6.A., one portable extinguisher not less than the minimum size permitted shall be provided.
TABLE 6.2.6.A.
Forming part of Article 6.2.6.4.
Basic Minimum Extinguisher Rating for Area Specified |
Maximum |
Maximum Area to be Protected per Extinguisher for Class A Fires, | ||
Light Hazard Occupancy |
Ordinary Hazard Occupancy |
Extra Hazard Occupancy | ||
2A 3A 4A 6A 10A 20A 40A |
25 25 25 25 25 25 25 |
600 900 1100 1100 1100 1100 1100 |
300 400 600 900 1100 1100 1100 |
Not Acceptable 300 400 600 900 1100 1100 |
Column 1 |
2 |
3 |
4 |
5 |
Hose stations in lieu of extinguishers
6.2.6.6. Up to one half of the number of portable extinguishers required in Table 6.2.6.A. may be replaced by hose stations.
Extinguishers for Class B fires
6.2.6.7. Except as required by Article 6.2.6.9., portable extinguishers for Class B fires shall be provided as required in Table 6.2.6.B.
6.2.6.8. (1) Where up to 3 portable extinguishers rated for Class B fires are used to satisfy the extinguisher rating specified in Table 6.2.6.B., the sum of the basic extinguisher ratings shall satisfy the requirements in Table 6.2.6.B.
(2) No more than 3 portable extinguishers shall be used to satisfy the requirements of Table 6.2.6.B.
TABLE 6.2.6.B.
Forming part of Article 6.2.6.7.
Grade of Hazard |
Basic Minimum Extinguisher Rating per Unit |
Maximum Travel Distance to Extinguishers, m |
Light |
5B 10B |
9 15 |
Ordinary |
10B 20B |
9 15 |
Extra |
20B 40B |
9 15 |
Column 1 |
2 |
3 |
Extinguishers for flammable and combustible liquids
6.2.6.9. (1) Portable extinguishers for Class B fires shall be provided for flammable and combustible liquid hazards when flammable or combustible liquids are stored in open containers to a depth greater than 6 mm.
(2) The portable extinguishers shall provide at least one numerical unit of extinguishing potential for Class B fires per 0.1 m2 of surface area of the largest open container within the area, but in no case shall the extinguisher rating be less than that required by Table 6.2.6.B.
(3) The travel distance to a fire extinguisher required by Sentence (1) shall not exceed 15 m.
6.2.6.10. (1) Where up to 3 foam-type portable extinguishers rated for Class B fires are used to satisfy the requirements of Article 6.2.6.9., the sum of the basic extinguisher ratings shall satisfy the requirements in Table 6.2.6.B.
(2) No more than 3 portable extinguishers shall be used to satisfy the requirements of Table 6.2.6.B.
Supplementary protection
6.2.6.11. Portable extinguishers shall supplement fixed fire protection in Part 5 in accordance with Article 6.2.6.9. where a flammable or combustible liquid is stored in an open container and where the liquid surface area exceeds 0.4 m2.
Extinguishers for commercial cooking equipment
6.2.6.12. Wet chemical or alkali based dry chemical portable extinguishers shall be provided to protect commercial cooking equipment.
Extinguishers for Class C fires
6.2.6.13. Portable extinguishers suitable for Class C fires shall be provided in or near service rooms containing electrical equipment.
Distribution
6.2.6.14. Distribution of portable extinguishers for Class C fires shall conform to the applicable provisions for the distribution of extinguishers for Class A or Class B fires in the vicinity of the electrical equipment.
6.2.6.15. Reference shall be made to Parts 2, 3, 4 and 5 for requirements of portable extinguishers for flammable and combustible liquids, hazardous materials, processes and operations.
Extinguishers for combustible metal fires
6.2.6.16. (1) For fires involving combustible metals, extinguishers or extinguishing agents with Class D fire ratings suitable for the combustible metal shall be provided.
(2) Extinguishing equipment shall be located not more than 25 m from the Class D fire hazard.
Subsection 6.2.7.Inspection, Testing and Maintenance
6.2.7.1. Maintenance and testing of portable extinguishers shall be in conformance with NFPA 10, “Portable Fire Extinguishers”.
Examination
6.2.7.2. Portable extinguishers shall be inspected monthly.
Defective extinguishers
6.2.7.3. Portable extinguishers having defects shall be repaired or recharged where necessary.
Tags
6.2.7.4. (1) Each portable extinguisher shall have a tag securely attached to it showing the maintenance or recharge date, the servicing agency and the signature of the person who performed the service.
(2) Sentence (1) does not apply where other approved records are maintained that show the maintenance or recharge date, the servicing agency and the signature of the person who performed the service.
Maintenance records
6.2.7.5. A permanent record containing the maintenance date, the examiner’s name and a description of any maintenance work or hydrostatic testing carried out shall be prepared and maintained for each portable extinguisher.
Maintenance after use
6.2.7.6. Portable extinguishers shall be replaced and recharged after use in conformance with instructions given on the extinguisher nameplate.
6.2.7.7. Extinguisher shells, cartridges or cylinders that show leakage or permanent distortion in excess of specified limits or that rupture shall be removed from service.
6.2.7.8. Hydrostatic pressure tests shall be conducted at the original test pressure as stated on the nameplate.
Test labels
6.2.7.9. (1) Where a portable extinguisher is tested, a label shall be fixed to the extinguisher after testing that indicates the month and year the hydrostatic pressure test was performed, the test pressure used and the name of the person or agency performing the test.
(2) Sentence (1) does not apply where a permanent record of the test is kept and is available to the fire department.
SECTION 6.3FIRE ALARM AND VOICE COMMUNICATION SYSTEMS FOR LIFE SAFETY
Subsection 6.3.1.General
Access
6.3.1.1. Access to fire alarm and voice communication system components requiring inspection or servicing shall be kept unobstructed.
6.3.1.2. Proprietary signalling systems shall be maintained in accordance with NFPA 72D, “Installation, Maintenance and Use of Proprietary Protective Signalling Systems”.
6.3.1.3. When a fire alarm or voice communication system or any part thereof is shut down, the supervisory staff shall be notified in accordance with Section 2.8.
6.3.1.4. Fire alarm and voice communication systems shall be maintained in operating condition.
Signal silencing
6.3.1.5. (1) Once activated, a fire alarm system shall not be manually silenced unless it has been confirmed by supervisory staff, in accordance with approved procedures as detailed in the fire safety plan, that no fire emergency exists.
(2) Sentence (1) does not apply where a silencing switch is part of an approved integrated voice communication system and signal silencing takes place to allow fire emergency instructions to be heard.
Disconnect switches
6.3.1.6. Disconnect switches for power supplies which serve only fire alarm systems or interconnected smoke alarms shall be in a locked secure area or otherwise secured in an approved manner.
Relocating manual pull stations
6.3.1.7. (1) Where approved, manual pull stations for a fire alarm system in a building may be relocated if there is a high incidence of false alarms in the building.
(2) Where the manual pull stations are relocated, alternate approved measures shall be used to maintain the level of life safety.
Repairs and alterations to fire alarm systems
6.3.1.8. Repair, replacement and alterations of fire alarm system components shall be in accordance with CAN/ULC-S524, “Installation of Fire Alarm Systems”.
Subsection 6.3.2.Check, Inspect and Test
6.3.2.1. (1) The owner shall ensure that any person performing the annual tests or annual inspections required by this Subsection and any person performing repair, replacement or alterations referred to in Article 6.3.1.8. is in compliance with the requirements of
(a) Clause 1.1.5.3.(1)(a), or
(b) Sentence 1.1.5.3.(2).
(2) The owner need not comply with the provisions of this Article until November 21, 1999.
Fire alarm systems
6.3.2.2. A fire alarm system, with or without voice communication capability, shall be inspected and tested in conformance with CAN/ULC-S536, “Inspection and Testing of Fire Alarm Systems”.
Central alarm and control facilities
6.3.2.3. The central alarm and control facility shall be checked daily for indication of trouble in the system.
Voice communication systems
6.3.2.4. Voice communication systems that are integrated with a fire alarm system shall be tested in conformance with CAN/ULC-S536, “Inspection and Testing of Fire Alarm Systems”.
6.3.2.5. (1) Voice communication systems that are not integrated with a fire alarm system shall be tested monthly in compliance with Sentences (2) and (3).
(2) Loudspeakers described in Sentence (1) shall be tested monthly as an all-call signal to ensure they function as intended.
(3) Communication from at least one remote firefighter emergency telephone location to the control unit shall be tested monthly on a rotational basis so that communication from all remote firefighter emergency telephone locations are tested at least once per year.
(4) Voice communication systems are not required to be tested in conformance with Sentences (1) and (2) where the systems are regularly used as part of a paging system.
Subsection 6.3.3.Smoke Alarms — Testing and Maintenance
6.3.3.1. (1) This Subsection applies to smoke alarms
(a) in dwelling units,
(b) in dwelling units regulated under Section 9.8, and
(c) in guest suites.
(2) In Clause (1)(b), “dwelling unit” means “dwelling unit” as defined in Clause 9.8.1.1.(2)(b).
6.3.3.2. (1) Smoke alarms shall be maintained in operating condition by the owner.
(2) For the purposes of Sentence (1), in rental dwelling units, including dwelling units regulated under Section 9.8, the landlord shall be deemed to be the owner.
6.3.3.3. The landlord shall provide a copy of the smoke alarm manufacturer’s maintenance instructions or approved alternative to the occupant in each rental dwelling unit, including the occupant in a dwelling unit regulated under Section 9.8.
6.3.3.4. No person shall intentionally disable a smoke alarm so as to make it inoperable.
6.3.3.5. (1) When smoke alarms are being replaced, the installation shall not reduce the level of detection required by
(a) the Building Code in effect at the time of construction of the dwelling unit, or
(b) municipal by-laws in effect before this Subsection came into force,
whichever is applicable.
SECTION 6.4STANDPIPE AND HOSE SYSTEMS
Subsection 6.4.1.General
6.4.1.1. During alteration of a building required to have a standpipe and hose system, the system shall be installed or dismantled progressively so as to provide protection to all floor areas.
6.4.1.2. Standpipe and hose systems shall be maintained in operating condition.
Fire department connections
6.4.1.3. (1) Except when in use or being inspected in accordance with Sentence (2), fire department connections shall be equipped with plugs or caps that are secured wrench tight.
(2) Plugs or caps shall be removed annually and the fire department connections inspected for wear, rust or obstruction and corrective action shall be taken as needed.
(3) If plugs or caps are missing, the fire department connections shall be examined for obstructions, back flushed when conditions warrant and the plugs or caps replaced.
Out of service requirements
6.4.1.4. When the standpipe and hose system or any part thereof is shut down, the supervisory staff shall be notified in accordance with Section 2.8.
Hotels
6.4.1.5. In buildings containing a hotel, a standpipe and hose system shall not be shut down, disconnected or otherwise impaired without notifying the Chief Fire Official in accordance with a schedule identified in the approved fire safety plan.
Subsection 6.4.2.Maintenance and Inspection of Hose Stations and Equipment
Hose stations
6.4.2.1. Hose stations shall be inspected monthly to ensure that the hose is in proper position and that all of the equipment is in place and in operable condition.
6.4.2.2. Standpipe and hose system equipment shall be used for fire protection only.
6.4.2.3. Standpipe hose stations shall be conspicuously identified and unobstructed.
Hose valves
6.4.2.4. Hose valves shall be inspected annually to ensure that they are tight so that there is no water leakage into the hose.
Hose
6.4.2.5. (1) Standpipe hose shall be inspected and re-racked annually and after use, and any worn hose or gaskets in the couplings at the hose valves and at the nozzle replaced.
(2) When hose is re-racked as required in Sentence (1), it shall be done so that any folds will not occur at the same places.
Dry standpipe identification
6.4.2.6. Each hose connection in a dry standpipe system shall be provided with a legible weatherproof sign reading: “DRY STANDPIPE FOR FIRE DEPARTMENT USE ONLY”.
Hose cabinets
6.4.2.7. (1) If a fire hose station is located in a cabinet, an approved lockable, scored glass break-front cabinet may be used.
(2) Hose stations in a Group ‘B’ Division 1 major occupancy may be located in secure areas, or in lockable cabinets where
(a) identical keys for all cabinets are located at all guard stations, or
(b) electrical remote release devices are provided and are connected to an emergency power supply.
Subsection 6.4.3.Testing
Standpipe systems
6.4.3.1. (1) Standpipe systems that have been modified, extended or are being restored to service after a period of disuse exceeding 1 year shall be tested in conformance with Articles 6.4.3.2. to 6.4.3.5.
(2) Where standpipe connections are built in walls or partitions, the tests shall be made before the standpipes are concealed.
6.4.3.2. Standpipe system piping shall be hydrostatically tested at a pressure of not less than 1400 kPa (gauge) for 2 hr, or at 350 kPa (gauge) in excess of the normal hydrostatic pressure when the normal hydrostatic pressure is in excess of 1050 kPa (gauge).
Fire department connections
6.4.3.3. Piping between the fire department connection and the check valve in the inlet pipe to the standpipe shall be tested in the same manner as the remainder of the system.
Underground mains
6.4.3.4. (1) Underground mains and connections shall be tested for 2 hr at a hydrostatic pressure of 350 kPa (gauge) in excess of the maximum hydrostatic pressure in service but not less than 1400 kPa (gauge).
(2) Leakage during the test shall not exceed 2 L per hour per 100 joints for pipe laid with rubber gasketted joints, and 30 mL per hour per 25 mm of pipe diameter per joint for pipe laid with caulked lead or lead substitute joints.
Flow and pressure tests
6.4.3.5. Flow and pressure tests shall be conducted at the highest and most remote hose valve or hose connection to ensure that the water supply for standpipes is provided as originally designed.
Dry standpipes
6.4.3.6. Standpipe system piping which normally remains dry shall be tested in conformance with Article 6.4.3.2. at intervals of not more than 5 years.
Hotels
6.4.3.7. In buildings containing a hotel, flow and pressure tests shall be conducted annually at the highest and most remote hose valve or hose connection to verify that the water supply for the standpipe system is provided as originally designed.
SECTION 6.5SPRINKLER SYSTEMS
Subsection 6.5.1.General
6.5.1.1. Repair, replacement and alterations of sprinkler system components shall be in accordance with NFPA 13, “Installation of Sprinkler Systems”.
6.5.1.2. Sprinkler systems shall be maintained in operating condition.
Closing sprinkler control valves
6.5.1.3. (1) Sprinkler control valves shall not be closed in the event of a fire until the fire is
(a) extinguished, or
(b) considered by the fire department, or by an industrial fire brigade established by the owner in consultation with the fire department, to be under control by other means.
Changes in equipment or occupancy
6.5.1.4. Changes in equipment or occupancy, that might result in temperatures at sprinklers being more than 38oC or less than 4oC with wet pipe systems, shall not be made without previously making provisions to alter the sprinkler system to prevent premature operation or freezing.
Obstructions
6.5.1.5. (1) No obstructions shall be placed so as to interfere with the effectiveness of water discharge from sprinklers.
(2) Sprinkler systems shall not be used to support anything that will interfere with effective sprinkler system performance.
6.5.1.6. (1) Where alterations or repairs are made to feed mains, cross mains, or risers in sprinkler systems, the systems shall be tested in conformance with Sentences (2) to (8).
(2) Except as permitted in Sentence (4), the sprinkler system shall be subjected to a hydrostatic pressure test of a minimum of 1400 kPa (gauge), or 350 kPa (gauge) in excess of the maximum static pressure to which the system may be subjected, for a period of 2 hr without loss of pressure.
Dry-pipe system testing
(3) For dry-pipe systems, the clapper of the differential type dry-pipe valve shall be held off its seat, and the ball drip in the intermediate chamber shall be replaced by a plug during the test.
Air testing
(4) At seasons of the year that will not permit hydrostatic pressure testing, the sprinkler system shall be pressure tested with air at 350 kPa (gauge) for 2 hr without loss of pressure, and the tests described in Sentence (2) performed when hydrostatic pressure testing can be performed without danger of freezing.
(5) Sprinkler system water supply pressure shall be tested with the main drain valve fully open to ensure that there are no obstructions in the water supply piping to the sprinkler system.
(6) Drainage facilities shall be tested to ensure that the drains are capable of taking the full flow from the main drain pipe without overflowing.
Dry-pipe valve testing
(7) Dry-pipe valves shall be tested to ensure that they are in operating condition.
Alarm testing
(8) Mechanical and electrical alarms shall be tested to ensure that they are in operating condition.
Testing of underground mains
6.5.1.7. (1) When alterations or additions are made to underground mains and lead-in connections of a sprinkler system, the mains and lead-in connections shall be tested by
(a) flushing for sufficient time to remove foreign material at a minimum water flow as specified in Table 6.5.1.A., and
(b) a 2 hr hydrostatic pressure test of 350 kPa (gauge) in excess of the maximum static pressure, but not less than 1400 kPa (gauge) and leakage shall not exceed 2 L per hour per 100 joints for pipe laid with rubber gasketted joints, and 30 mL per hour per 25 mm of pipe diameter per joint for pipe laid with caulked lead or lead substitute joints.
TABLE 6.5.1.A.
Forming part of Article 6.5.1.7.
Size of Pipe, mm |
Minimum Flow, L/min |
100 |
1500 |
150 |
3250 |
200 |
5800 |
250 |
9000 |
300 |
13000 |
Column 1 |
Column 2 |
(2) At seasons of the year that will not permit hydrostatic pressure testing, the procedure outlined in Sentence 6.5.1.6.(4) may be followed.
Records
6.5.1.8. (1) An approved record shall be kept of inspections of each system.
(2) The record required in Sentence (1) shall be available for examination by the Chief Fire Official.
Subsection 6.5.2.Sprinkler System Shutdowns
Notification
6.5.2.1. When any alterations, additions or repairs are to be made involving interruption to a sprinkler system or part thereof, the Chief Fire Official shall be notified.
6.5.2.2. (1) Sprinkler control valves and sprinkler water supplies shall not be shut down, disconnected or otherwise impaired for more than 24 hours without notifying the Chief Fire Official.
(2) In buildings containing a hotel, sprinkler control valves and sprinkler water supplies shall not be shut down, disconnected or otherwise impaired
(a) for 24 hours or less without notifying the Chief Fire Official in accordance with a schedule identified in the approved fire safety plan, or
(b) for more than 24 hours without notifying the Chief Fire Official.
6.5.2.3. Where it is required to temporarily shut down a sprinkler system or part thereof, the work shall be programmed by the contractor working on the system to enable the sprinkler system to be operational as quickly as possible in the circumstances.
Programmed repairs
6.5.2.4. When a sprinkler system or part thereof is shut down, the supervisory staff shall be notified in accordance with Section 2.8.
Additional protection during shutdowns
6.5.2.5. Full sprinkler protection shall be restored or the provisions of Article 6.5.2.6. maintained when work on the system is discontinued.
Identification of closed valves
6.5.2.6. Closed sprinkler control valves shall be tagged or identified in an approved manner.
Subsection 6.5.3.Checking
Sprinkler control valves
6.5.3.1. Valves, except for electrically supervised valves, controlling water supplies to sprinklers and alarm connections shall be checked weekly to ensure that they are in the open position.
6.5.3.2. Exposed sprinkler piping hangers shall be checked yearly to ensure that they are kept in good repair.
Pressure maintenance
6.5.3.3. Water supply pressure and system air or water pressure shall be checked weekly by using gauges to ensure that the system is maintained at the required operating pressure.
6.5.3.4. Dry-pipe valve rooms or enclosures in unheated buildings shall be checked as often as necessary when the outside temperature falls below 0oC to ensure that the system does not freeze.
Sprinkler inspection
6.5.3.5. Sprinkler heads shall be checked at least once per year to ensure that they are free from damage, corrosion, grease, dust, paint or whitewash.
Subsection 6.5.4.Inspection
Winter damage
6.5.4.1. Auxiliary drains shall be inspected to prevent freezing.
Test flushing
6.5.4.2. Dry-pipe systems shall be inspected every 15 years for obstructions in the sprinkler piping and, if necessary, the entire system flushed of foreign material.
Priming water level
6.5.4.3. The priming water for dry-pipe systems shall be inspected at least every three months to ensure that the proper level above the dry-pipe valve is maintained.
Fire department connections
6.5.4.4. (1) Except when in use or being inspected in accordance with Sentence (2), fire department connections shall be equipped with plugs or caps that are secured wrench tight.
(2) Plugs or caps shall be removed annually and the fire department connections inspected for wear, rust or obstruction and corrective action shall be taken as needed.
(3) If plugs or caps are missing, the fire department connections shall be examined for obstructions, back flushed when conditions warrant and the plugs or caps replaced.
Subsection 6.5.5.Testing
Notification
6.5.5.1. Prior notification of waterflow or other tests to be made to a sprinkler system shall be given to parties who could be affected by an alarm.
Alarm testing
6.5.5.2. (1) Except as provided in Article 6.5.5.7., the alarm on all sprinkler systems shall be tested monthly by flowing water through the test connection located at the sprinkler valve.
(2) An alarm line subject to freezing shall be cleared of all obstructions susceptible to freezing after the test specified in Sentence (1).
Waterflow alarm tests
6.5.5.3. Waterflow alarm tests using the most hydraulically remote test connection shall be performed annually on wet sprinkler systems.
Trip testing valves
6.5.5.4. (1) Dry-pipe valves shall be trip tested by means of the inspector’s test valve in accordance with Sentences (2) and (3) to ensure that they operate satisfactorily and that the sprinkler alarms are in operating condition.
(2) Dry-pipe valves shall be trip tested annually.
(3) During the test referred to in Sentence (2), the control valve is not required to be in the fully open position.
(4) Dry-pipe valves shall be trip tested at least once every 3 years with the control valve fully open.
(5) The trip time for the tests described in Sentences (2) and (4) may exceed the acceptance trip time by not more than 10 per cent.
Water supply
6.5.5.5. Sprinkler system water supply pressure shall be tested annually with the main drain valve fully open to ensure that there are no obstructions or deterioration of the main water supply.
6.5.5.6. The test prescribed in Article 6.5.5.5. shall be conducted after any sprinkler system control valve has been operated.
Electrical supervision signal testing
6.5.5.7. (1) Where an electrical supervisory signal service is provided for a sprinkler system, it shall be tested by operating the supervisory signal devices in conformance with Sentences (2) and (3).
(2) Transmitters and waterflow actuated devices shall be tested every 2 months.
(3) Valve supervisory switches, tank water level devices, building and tank water temperature supervisory devices and other sprinkler system supervisory devices shall be tested at least every 6 months.
Subsection 6.5.6.Maintenance
Sprinkler guards
6.5.6.1. Sprinklers shall be protected by sprinkler guards where there is the possibility of mechanical damage.
6.5.6.2. Sprinkler control valves shall be accessible and maintained in operable condition at all times.
6.5.6.3. Pits containing sprinkler control valves shall be kept free of water and protected against freezing.
Precautions against freezing
6.5.6.4. (1) Except as permitted in Sentence (2), sections of sprinkler systems subject to freezing shall be converted to a dry-pipe or antifreeze system with a separate control valve for that part of the system.
(2) Alternative methods to prevent freezing of sprinkler piping may be used where approved.
Spare sprinkler heads
6.5.6.5. (1) Where sprinkler systems are installed, a supply of spare sprinkler heads and equipment shall be maintained in conformance with Sentences (2) to (5).
(2) Spare sprinkler heads shall be kept in a cabinet where the temperature does not exceed 38oC.
(3) The minimum stock of spare sprinkler heads to be kept on hand shall be
(a) 6 sprinkler heads for installations containing not more than 300 sprinklers,
(b) 12 sprinkler heads for installations containing from 301 to 1000 sprinklers, and
(c) 24 sprinkler heads for installations containing more than 1000 sprinklers.
(4) Spare sprinkler heads shall correspond to the types and temperature ratings of the sprinklers installed on the system.
Sprinkler wrench
(5) A wrench suitable for replacing sprinkler heads shall be kept in the cabinet where the spare sprinkler heads are stored.
Protection for combustible sprinkler piping
6.5.6.6. Protection for combustible sprinkler piping required by the Building Code shall be maintained.
SECTION 6.6WATER SUPPLIES FOR FIRE PROTECTION
Subsection 6.6.1.General
6.6.1.1. Private and public water supplies for fire protection installations shall be maintained to provide the required flow under fire conditions.
Valve inspections
6.6.1.2. Valves controlling water supplies used exclusively for fire protection systems shall be inspected weekly to ensure that they are wide open and are sealed or locked in that position.
Ice accumulations
6.6.1.3. Water supply systems used for fire protection shall be kept free of ice accumulations that may interfere with flow.
Antifreeze pumping systems
6.6.1.4. Where antifreeze solutions are used to maintain pumping systems operable under freezing conditions, the specific gravity shall be such that the solution will remain unfrozen at a temperature of 8oC below the expected minimum temperature of the surrounding atmosphere.
Subsection 6.6.2.Tanks
Tank inspections
6.6.2.1. An annual inspection shall be made of tanks for fire protection, tank supporting structures and water supply systems including piping, control valves, check valves, heating systems, mercury gauges and expansion joints to ensure that they are in operating condition.
Tank heating equipment
6.6.2.2. Tank heating equipment and accessories shall be checked daily during freezing weather to ensure that they are in operating condition and that heater valves are open.
Water temperature checks
6.6.2.3. A daily check of the temperature of the water contained in tanks shall be carried out during freezing weather to ensure that it does not fall below the freezing temperature.
Tank enclosure temperature checks
6.6.2.4. A daily check of the temperature of the tank enclosure for tanks in buildings shall be carried out during freezing weather to ensure that the temperature of the tank enclosure does not fall below 0oC.
Check for corrosion
6.6.2.5. Steel and iron work including the inside and outside of steel tanks and hoops and grillages for wooden tanks shall be checked for corrosion at intervals not exceeding 2 years and scraped and repainted as required.
Inspection for sediment
6.6.2.6. (1) Tanks, other than tanks supplied by a potable water supply, shall be inspected for accumulations of sediment at least every 2 years and cleaned as required.
(2) Tanks supplied by a potable water supply shall be inspected every 5 years and scraped and repainted as required.
Inspection of cathodic protection
6.6.2.7. Where cathodic protection equipment is installed to prevent corrosion of steel tanks, the equipment shall be inspected annually.
Water level in gravity tanks
6.6.2.8. The water level in gravity tanks shall be inspected monthly.
Gravity tanks
6.6.2.9. Gravity tanks shall be inspected annually to ensure that the tank roof is tight and in good repair, that hatches or doors are kept closed and properly secured and that the frostproof casing of the tank riser makes a tight joint with the bottom of the tank.
6.6.2.10. The space between overflow pipes and the tops of gravity tanks, the valve pits at the bottoms of the risers and the entire area around the bases of the columns of tanks shall be kept free of rubbish and waste materials.
6.6.2.11. Gravity tank expansion joints shall be repacked and adjusted if binding or leaks develop.
Pressure tanks
6.6.2.12. (1) Pressure tanks shall be checked weekly during which the water level shall be observed and the air pressure shall be read.
(2) Corrective action shall be taken immediately if the observed water level or air pressure are outside the designed operating range for the tank.
6.6.2.13. Relief valves on the air and water supply lines of pressure tanks shall be inspected weekly.
Subsection 6.6.3.Fire Pumps and Reservoirs
Fire pump reservoirs
6.6.3.1. The water level in the fire pump reservoir shall be checked weekly.
Pump room temperature
6.6.3.2. The temperature of pump rooms shall be checked daily during freezing weather.
Inspection of fire pumps
6.6.3.3. (1) Fire pumps shall be operated at least once per week at rated speed.
(2) The fire pump discharge pressure, suction pressure, lubricating oil level, operative condition of relief valves, priming water level and general operating conditions shall be inspected during the weekly operation of fire pumps.
Internal combustion engine inspection
6.6.3.4. (1) Internal combustion engine fire pumps shall be operated once a week for a sufficient time to bring the engine up to normal operating temperature.
(2) The storage batteries, lubrication systems, oil and fuel supplies shall be inspected once a week.
Fire pump flow tests
6.6.3.5. Fire pumps shall be tested annually at full rated capacity to ensure that they are capable of delivering the rated flow.
Hotels
6.6.3.6. In buildings containing a hotel, the intervals referred to in Articles 6.6.3.3. and 6.6.3.4. are permitted to be once per month.
Subsection 6.6.4.Hydrants
Hydrants
6.6.4.1. Municipal and private hydrants shall be maintained in operating condition.
6.6.4.2. Hydrants shall be maintained free of snow and ice accumulations.
6.6.4.3. Hydrants shall be readily available and unobstructed for use at all times.
Subsection 6.6.5.Inspection of Hydrants
6.6.5.1. Hydrants shall be inspected annually and after each use in accordance with Articles 6.6.5.2. to 6.6.5.5.
6.6.5.2. (1) Except when in use or being inspected in accordance with Sentence (2), hydrants shall be equipped with port caps that are secured wrench tight.
(2) The port caps shall be removed and the connections inspected for wear, rust or obstructions that in any way hamper easy removal and corrective action shall be taken as needed.
(3) If the caps are missing, the hydrant shall be examined for obstructions or accumulated refuse and flushed in accordance with Article 6.6.5.7. and the port caps shall be re-installed.
6.6.5.3. The hydrant barrel shall be inspected to ensure that no water has accumulated within the barrel when the main valve is in the closed position.
6.6.5.4. Where the hydrant barrel is found to contain water under Article 6.6.5.3., the drain valve shall be inspected for operation.
6.6.5.5. If the hydrant barrel is found to contain water because of poor drainage that is impractical to correct, approved measures shall be taken to prevent freezing during winter conditions.
Hydrant water flow
6.6.5.6. Hydrant water flow shall be inspected annually in accordance with Article 6.6.5.7.
6.6.5.7. The main valve of the hydrant shall be fully opened and the hydrant operated with one port open and the water flow checked.
6.6.5.8. A record of the hydrant operation as described in Article 6.6.5.7. shall be kept in conformance with Article 1.1.2.1.
Subsection 6.6.6.Uniform Marking of Hydrants
Hydrant marking
6.6.6.1. Hydrants shall be colour-coded in accordance with NFPA 291, “Fire Flow Testing and Marking of Hydrants”.
SECTION 6.7EMERGENCY POWER SYSTEMS
Subsection 6.7.1.General
6.7.1.1. (1) Except as provided in Articles 6.7.1.2. to 6.7.1.5., emergency power systems shall be inspected, tested and maintained in conformance with CSA-C282, “Emergency Electrical Power Supply for Buildings”.
(2) When an emergency power system or any part thereof is shut down, the supervisory staff shall be notified in accordance with Section 2.8.
Instructions for switching and starting
6.7.1.2. Where an emergency power system is installed, instructions shall be provided for switching on essential loads and for starting the generator when this is not done automatically.
Inspection and testing
6.7.1.3. Despite the requirements of Article 1.1.2.1., written records shall be maintained as required in CSA-C282, “Emergency Electrical Power Supply for Buildings”.
Fuel supply
6.7.1.4. The amount of fuel stored and connected to the emergency power system shall be sufficient to operate the engine for at least 2 hr.
6.7.1.5. (1) Liquid fuel tanks shall be drained and refilled with a fresh supply at least once a year.
(2) The requirements of Sentence (1) may be achieved by replenishment as the result of the normal weekly test program required in Article 6.7.1.1.
SECTION 6.8SPECIAL EXTINGUISHING SYSTEMS
Subsection 6.8.1.General
Inspection and maintenance
6.8.1.1. (1) Except as otherwise provided in this Section, where special extinguishing systems have been installed, inspection and maintenance shall be provided in conformance with the appropriate standards listed in Clauses (a) to (j):
(a) NFPA 11, “Low-Expansion Foam”,
(b) NFPA 11A, “Medium-and High-Expansion Foam Systems”,
(c) NFPA 12, “Carbon Dioxide Extinguishing Systems”,
(d) NFPA 12A, “Halon 1301 Fire Extinguishing Systems”,
(e) NFPA 12B, “Halon 1211 Fire Extinguishing Systems”,
(f) NFPA 15, “Water Spray Fixed Systems for Fire Protection”,
(g) NFPA 16, “Foam-Water Sprinkler and Foam-Water Spray Systems”,
(h) NFPA 17, “Dry Chemical Extinguishing Systems”,
(i) NFPA 17A, “Wet Chemical Extinguishing Systems”, or
(j) NFPA 18, “Wetting Agents”.
(2) When a special extinguishing system or any part thereof is shut down, the supervisory staff shall be notified in accordance with Section 2.8.
Test records
6.8.1.2. Written records shall be kept of inspections, maintenance and testing in conformance with Article 1.1.2.1.
Operating and maintenance instructions
6.8.1.3. Operating and maintenance instructions shall be posted in proximity to the equipment and located near manual controls when the controls are provided.
Valves and controls
6.8.1.4. Valves and controls shall be marked to clearly indicate their function and be accessible at all times.
Container maintenance
6.8.1.5. Extinguishing agent containers provided for special extinguishing systems shall be fully charged with the proper quantity of extinguishing agent and the necessary operating pressure maintained.
Discharge outlets
6.8.1.6. Discharge outlets for special extinguishing systems shall be kept free of dirt and residue.
Piping
6.8.1.7. Piping and equipment shall be mechanically secure and accessible for cleaning and maintenance.
Replacement equipment
6.8.1.8. No replacement equipment and devices provided for special extinguishing systems shall be used unless suitable for the installation in which they are to be placed.
O. Reg. 388/97, Part 6; O. Reg. 398/98, s. 2; O. Reg. 475/00, s. 32; O. Reg. 144/06, ss. 12-16.
PART 7
INSPECTION, TESTING AND MAINTENANCE OF FIRE EMERGENCY SYSTEMS IN HIGH BUILDINGS
TABLE OF CONTENTS
SECTION 7.1 |
GENERAL |
Subsection 7.1.1. |
General |
SECTION 7.2 |
INSPECTION, TESTING AND MAINTENANCE |
Subsection 7.2.1. |
Intervals Between Tests |
Subsection 7.2.2. |
Elevators |
Subsection 7.2.3. |
Venting to Aid Fire Fighting |
Subsection 7.2.4. |
Central Alarm and Control Facilities and Voice Communication Systems for Life Safety |
SECTION 7.3 |
INSPECTIONS AND TESTS FOR SMOKE CONTROL EQUIPMENT |
Subsection 7.3.1. |
General |
SECTION 7.1GENERAL
Subsection 7.1.1.General
Application
7.1.1.1. This Part provides for the checking, inspection, testing and maintenance of fire emergency systems installed in high buildings as defined in Subsection 3.2.6. of the Building Code.
Fire safety plan
7.1.1.2. A fire safety plan as described in Section 2.8 shall be maintained for every building subject to this Section.
7.1.1.3. RESERVED
Testing fire emergency systems
7.1.1.4. Fire emergency systems required by Subsection 3.2.6. of the Building Code shall be tested in conformance with Sections 7.2 and 7.3.
7.1.1.5. RESERVED
Maintenance of fire emergency systems
7.1.1.6. (1) In addition to the requirements of Part 6, components of fire emergency systems shall be maintained in conformance with Sentences (2) to (6).
(2) The keys required to recall elevators and to permit independent operation of each elevator shall be kept in the location required by Subsection 3.2.6. of the Building Code.
(3) The required firefighters’ elevator symbol shall be maintained in identifiable condition.
(4) Access to windows and panels required to vent floor areas and vents to vestibules permitted to be manually openable shall be kept free of obstructions.
(5) Windows and panels provided for venting floor areas shall be maintained so as to be openable without the use of keys.
(6) Vents to vestibules permitted to be manually openable shall be maintained in an operable condition.
SECTION 7.2INSPECTION, TESTING AND MAINTENANCE
Subsection 7.2.1.Intervals Between Tests
7.2.1.1. Unless otherwise specifically prescribed in this Part, tests shall be carried out at intervals of not more than 3 months.
7.2.1.2. Firefighters’ elevators required in Subsection 3.2.6. of the Building Code and Sections 9.4 and 9.6 of this Code and elevators referred to in Clause 2.8.2.3.(1)(b) of this Code shall be maintained in operable condition.
Subsection 7.2.2.Elevators
Testing
7.2.2.1. (1) Elevator door-opening devices operated by means of photo-electric cells shall be tested to ensure that the devices become inoperative after the door has been held open for more than 20 s with the photo-electric cell covered.
(2) Key-operated switches located outside an elevator shaft shall be tested to ensure that actuation of the switch will render the emergency stop switch in each car inoperative and bring all cars to the street floor or transfer lobby by cancelling all other calls after the car has stopped at the next floor at which it can make a normal stop.
(3) Key-operated switches in each elevator car shall be tested to ensure that actuation of the switch will
(a) enable the elevator to operate independently of other elevators,
(b) allow operation of the elevator without interference from floor call buttons,
(c) render door protective devices inoperative, and
(d) control the opening of power-operated doors only by continuous pressure on the door opening buttons or switches, to ensure that if the “OPEN” button or switch is released while the door is opening, the doors will automatically close.
Subsection 7.2.3.Venting to Aid Fire Fighting
Inspection
7.2.3.1. (1) Closures in vent openings into smoke shafts from each floor area shall be inspected sequentially over a period not to exceed 5 years.
(2) Every closure in an opening to the outdoors at the top of a smoke shaft shall be inspected annually to ensure that it will open
(a) manually from outside the building,
(b) on a signal from the smoke or heat actuated device in the smoke shaft, and
(c) when a closure in an opening between a floor area and the smoke shaft opens.
(3) In addition to the procedures described in Sentences (1) and (2), elevators in an elevator shaft that is intended for use as a smoke shaft shall be inspected semi-annually to ensure that on activation of the fire alarm system they will return to the street floor and remain inoperative.
(4) Controls for air-handling systems used for venting in the event of a fire shall be inspected annually to ensure that air is exhausted from each floor area to the outdoors as required in Sentence 3.2.6.10.(2) of the Building Code.
Subsection 7.2.4.Central Alarm and Control Facilities and Voice Communication Systems for Life Safety
7.2.4.1. The checking, inspecting and testing of central alarm and control facilities and voice communication systems for life safety shall be carried out in accordance with the requirements of Section 6.3.
SECTION 7.3INSPECTIONS AND TESTS FOR SMOKE CONTROL EQUIPMENT
Subsection 7.3.1.General
7.3.1.1. Smoke control equipment provided in buildings under the Building Code shall be maintained in a manner to ensure that they are fully operational.
7.3.1.2. Where smoke control measures contained in the Supplement to the National Building Code of Canada 1995, Chapter 3, “Measures for Fire Safety in High Buildings”, are used, the inspections and tests shall be carried out as outlined in Section 7.3 of the National Fire Code of Canada 1995.
7.3.1.3. Where a smoke control system is designed to meet the requirements of Sentences 3.2.6.2.(2), (3) and (4) of the Building Code, the inspections and tests for equipment shall be carried out in accordance with procedures established by the designer of the system.
O. Reg. 388/97, Part 7.
PART 8
DEMOLITION
TABLE OF CONTENTS
SECTION 8.1 |
GENERAL |
Subsection 8.1.1. |
Application |
Subsection 8.1.2. |
Requirements |
SECTION 8.1GENERAL
Subsection 8.1.1.Application
Application
8.1.1.1. This Part applies to the prevention or control of fire during any demolition and the protection from fire of adjacent occupied spaces and adjoining properties.
Subsection 8.1.2.Requirements
Building services
8.1.2.1. Existing building services that may be affected by demolition so as to cause a fire hazard shall be protected or be shut off and capped.
Firewatch
8.1.2.2. (1) During periods when demolition operations will create a fire hazard to neighbouring properties or partially occupied spaces, a firewatch shall be provided.
(2) Where a firewatch is required, the demolition site shall be toured at least once each hour.
(3) The firewatch personnel shall be provided with a means of communication with the fire department, and be equipped with portable illumination and protective equipment.
(4) Prior to commencement of demolition, a plan conforming to Sentence (5) shall be prepared and implemented for the demolition site.
(5) The plan required by Sentence (4) shall include
(a) the designation and organization of site personnel to carry out fire safety duties, including firewatch if applicable,
(b) the emergency procedures to be used in case of fire, including
(i) sounding the alarm throughout the building,
(ii) notifying the fire department, and
(iii) instructing site personnel on procedures to be followed when the fire alarm sounds,
(c) the control of fire hazards in and around the building, and
(d) the maintenance of fire fighting facilities.
Storage of combustible salvage
8.1.2.3. (1) Combustible salvage, combustible waste material and rubbish shall not be permitted to accumulate on site in such quantity or such location as to cause a fire hazard.
(2) Where temporary chutes are installed on the exterior of a building they shall
(a) be of noncombustible material, or
(b) be installed a distance of at least 3 m from any opening in the building face.
Removal of combustible waste
8.1.2.4. Rubbish shall not be burned on the premises unless permitted in accordance with Article 2.6.3.4.
Welding and cutting
8.1.2.5. Electric or gas welding and cutting equipment and the installation, operation and maintenance of electric or gas welding and cutting equipment shall be carried out in conformance with the requirements of Section 5.17.
Standpipe systems
8.1.2.6. (1) During the demolition of any building with a standpipe system, the standpipe system complete with fire department connections, valves, couplings and hose, shall be maintained two floors below the level of the floor being demolished.
(2) Where no fire department standpipe connections exist in buildings 4 storeys or more in building height in buildings underdemolition, a temporary connection shall be provided.
(3) In buildings not equipped with a standpipe system and over 8 storeys in building height, a temporary standpipe shall be provided.
(4) Standpipe systems shall be kept in such condition that they may be connected near street level, to a fire department pump, so as to supply water to every outlet on each floor.
(5) In buildings over 84 m in height, primary water supplies serving standpipe systems, including fire pumps, shall be maintained in operating condition in buildings under demolition.
8.1.2.7. (1) Fire fighting access routes shall be maintained in conformance with Section 2.5.
(2) Elevating devices shall be accessible for the use of firefighters for buildings more than 36 m in building height, measured between grade and the floor level of the top storey.
Portable extinguishers
8.1.2.8. (1) Portable extinguishers shall be provided in buildings under demolition in conformance with Subsection 6.2.6. as if the building were graded for ordinary hazard under Subsection 6.2.5.
(2) Portable extinguishers required under Sentence (1) shall be maintained in conformance with Section 6.2.
O. Reg. 388/97, Part 8.
PART 9
RETROFIT
TABLE OF CONTENTS
SECTION 9.1 |
GENERAL |
Subsection 9.1.1. |
Scope |
Subsection 9.1.2. |
Application |
Subsection 9.1.3. |
Schedule of Compliance |
Subsection 9.1.4. |
Life Safety Study |
SECTION 9.2 |
ASSEMBLY OCCUPANCIES |
Subsection 9.2.1. |
Application |
Subsection 9.2.2. |
Containment |
Subsection 9.2.3. |
Means of Egress |
Subsection 9.2.4. |
Fire Alarm and Detection |
Subsection 9.2.5. |
Suppression |
SECTION 9.3 |
BOARDING, LODGING AND ROOMING HOUSES |
Subsection 9.3.1. |
Application |
Subsection 9.3.2. |
Containment |
Subsection 9.3.3. |
Means of Egress |
Subsection 9.3.4. |
Fire Alarm and Detection |
Subsection 9.3.5. |
Suppression |
SECTION 9.4 |
HEALTH CARE FACILITIES |
Subsection 9.4.1. |
Application |
Subsection 9.4.2. |
Containment |
Subsection 9.4.3. |
Means of Egress |
Subsection 9.4.4. |
Fire Alarm and Detection |
Subsection 9.4.5. |
Suppression |
SECTION 9.5 |
BUILDINGS UP TO AND INCLUDING SIX STOREYS IN BUILDING HEIGHT WITH RESIDENTIAL OCCUPANCIES |
Subsection 9.5.1. |
Application |
Subsection 9.5.2. |
Containment |
Subsection 9.5.3. |
Means of Egress |
Subsection 9.5.4. |
Fire Alarm and Detection |
Subsection 9.5.5. |
Suppression |
SECTION 9.6 |
BUILDINGS HIGHER THAN SIX STOREYS IN BUILDING HEIGHT WITH RESIDENTIAL OCCUPANCIES |
Subsection 9.6.1. |
Application |
Subsection 9.6.2. |
Containment |
Subsection 9.6.3. |
Means of Egress |
Subsection 9.6.4. |
Fire Alarm and Detection |
Subsection 9.6.5. |
Suppression |
SECTION 9.7 |
RESERVED |
SECTION 9.8 |
TWO UNIT RESIDENTIAL OCCUPANCIES |
Subsection 9.8.1. |
Application |
Subsection 9.8.2. |
Containment |
Subsection 9.8.3. |
Means of Egress |
Subsection 9.8.4. |
Fire Alarm and Detection |
Subsection 9.8.5. |
Suppression |
Subsection 9.8.6. |
Electrical |
SECTION 9.9 |
HOTELS |
Subsection 9.9.1. |
Application |
Subsection 9.9.2. |
Containment |
Subsection 9.9.3. |
Means of Egress |
Subsection 9.9.4. |
Fire Alarm and Detection |
Subsection 9.9.5. |
Suppression |
SECTION 9.1GENERAL
Subsection 9.1.1.Scope
Scope
9.1.1.1. (1) This Part provides for the upgrading of existing buildings.
(2) For the purposes of this Part, the term “existing” is defined in each Section.
Subsection 9.1.2.Application
Application
9.1.2.1. The requirements for buildings that are covered by this Part shall be determined by their occupancies as regulated in the appropriate Sections herein.
9.1.2.2. (1) Except for Section 9.9, this Part does not apply to buildings or parts thereof that satisfy the requirements of the Building Code.
(2) Section 9.9 does not apply to buildings or parts thereof that satisfy the requirements of the Building Code as it read on or after July 1, 1993.
9.1.2.3. (1) The requirements of this Part shall be satisfied
(a) under Subsection 9.1.3., or
(b) by implementing an approved Life Safety Study in accordance with Subsection 9.1.4.
9.1.2.4. A requirement of this Part shall be deemed to be complied with if materials, equipment or systems are approved that, in the opinion of the Chief Fire Official, will provide protection for life safety similar to the protection provided by compliance with the requirement.
Subsection 9.1.3.Schedule of Compliance
Compliance time
9.1.3.1. (1) Except as permitted in Article 9.1.3.2., it is the responsibility of the owner to comply with the requirements of Section 9.9, except as permitted in Sentences (2), (3) and (4), as of January 1, 2007.
(2) In a hotel establishment constructed after August 31, 1971, or in an addition to a hotel establishment constructed after August 31, 1971, it is the responsibility of the owner to comply with the requirements of
(a) Article 9.9.1.2., as of January 1, 2008,
(b) Sentence 9.9.2.12.(5) and Article 9.9.4.13., as of July 1, 2008,
(c) Sentences 9.9.2.8.(2), 9.9.2.14.(3) and (4) and 9.9.3.3.(2), (3) and (5), Clauses 9.9.4.2.(2)(b) and (c) and Sentence 9.9.4.2.(4), as of January 1, 2010, and
(d) Article 9.9.2.9., Sentences 9.9.2.10.(7) and (8), Article 9.9.2.13., Sentences 9.9.2.15.(3) and 9.9.3.2.(3) and Articles 9.9.4.14., 9.9.5.1., 9.9.5.3. and 9.9.5.5, as of January 1, 2012.
(3) In a hotel establishment constructed after August 31, 1971, or in an addition to a hotel establishment constructed after August 31, 1971, it is the responsibility of the owner to comply with the requirements of Sentence 9.9.2.8.(1) with respect to self-closing devices on doors as of January 1, 2010.
(4) In a hotel establishment constructed prior to September 1, 1971, or in an addition to a hotel establishment constructed prior to September 1, 1971, it is the responsibility of the owner to comply with the requirements of
(a) Article 9.9.1.2., as of January 1, 2008,
(b) Sentence 9.9.2.12.(5) and Article 9.9.4.13., as of July 1, 2008,
(c) Article 9.9.2.6., Sentences 9.9.2.8.(1) and (2), 9.9.2.14.(3) and (4) and 9.9.3.3.(2), (3), (5) and (6), Article 9.9.3.5., Sentences 9.9.3.6.(2) and 9.9.3.7.(1), Clauses 9.9.4.2.(2)(b) and (c) and Sentence 9.9.4.2.(4), as of January 1, 2010, and
(d) Sentence 9.9.2.1.(6), Articles 9.9.2.2. to 9.9.2.5., 9.9.2.7. and 9.9.2.9., Sentences 9.9.2.10.(7) and (8), Article 9.9.2.13., Sentences 9.9.2.15.(3), 9.9.3.2.(2) and (3) and Articles 9.9.4.14., 9.9.5.1., 9.9.5.2., 9.9.5.3. and 9.9.5.5, as of January 1, 2012.
(5) Sections 9.2, 9.3, 9.4, 9.5, 9.6 and 9.8 do not apply to buildings with respect to which the Chief Fire Official has granted an exemption under a predecessor to this Regulation for so long as the exemption is valid.
Extension of time
9.1.3.2. If compliance is not possible by the date required under Article 9.1.3.1. because of a strike, material shortage or other circumstances beyond an owner’s control, the Chief Fire Official may grant an extension of the time for compliance.
Subsection 9.1.4.Life Safety Study
Life Safety Study
9.1.4.1. (1) A Life Safety Study is a proposal to the Chief Fire Official that consists of
(a) a detailed assessment of the life safety performance requirements, clearly identifying items not meeting the requirements of this Part,
(b) a detailed description of how an acceptable level of life safety can be achieved, and
(c) a detailed time schedule to implement the provisions of Clause (b).
Contents
9.1.4.2. (1) A Life Safety Study shall deal with, but is not limited to,
(a) containment, including
(i) fire separations,
(ii) firewalls,
(iii) construction assemblies,
(iv) occupancy separations, and
(v) interior finishes,
(b) detection, including
(i) alarm and detection systems, and
(ii) voice communication systems,
(c) suppression, including
(i) fire department access,
(ii) standpipe and hose systems,
(iii) sprinkler or special extinguishing systems, and
(iv) firefighters’ elevators, and
(d) egress, including
(i) the number, type, access to, direction to, lighting for and identification of exits,
(ii) fire escapes,
(iii) occupant load, and
(iv) emergency lighting.
Signature and seal
9.1.4.3. A Life Safety Study shall bear the signature and seal of a Professional Engineer or Architect, or both.
Time schedule
9.1.4.4. The time schedule referred to in Clause 9.1.4.1.(1)(c) may provide for a compliance date after the compliance date required by Article 9.1.3.1.
Extension of time
9.1.4.5. An owner or the owner’s agent may apply to the Chief Fire Official for an extension of the compliance date to permit time for a Life Safety Study to be submitted.
Extension following Order
9.1.4.6. (1) Where an owner or the owner’s agent has received an Order that requires compliance with this Part, the owner or the owner’s agent may apply within five days of receipt of the Order to the Chief Fire Official to extend the time for compliance pending submission of a Life Safety Study.
Review
(2) Upon receipt of the application referred to in Sentence (1), the Chief Fire Official shall, within ten days, review the application and either grant or refuse an extension of the time for compliance to permit submission of a Life Safety Study.
(3) The Chief Fire Official shall notify the owner or the owner’s agent of the Chief Fire Official’s decision in writing.
Notification
(4) Notification shall be served either personally or by ordinary mail.
(5) Where notification is by mail, it shall be deemed to have been served on the fifth day after the date of mailing.
Written reasons
(6) An owner or the owner’s agent, within five days of being notified of a refusal to grant an extension of the time to submit a Life Safety Study, may request the reasons therefor in writing.
(7) The Chief Fire Official shall comply with the request referred to in Sentence (6) within ten days after receipt thereof.
Appeal
(8) An owner or the owner’s agent who feels aggrieved by a decision to refuse an extension of time to submit a Life Safety Study may, within thirty days of the refusal, appeal the refusal in the same manner as though it were an Order.
Review
9.1.4.7. (1) Despite any other Order that requires compliance with this Part, the Chief Fire Official shall, within thirty days after receiving a Life Safety Study, review the Life Safety Study for implementation.
Notification
(2) Where a Life Safety Study is approved for implementation, the Chief Fire Official shall notify the owner or the owner’s agent of the decision in writing.
Rejection
(3) Where a Life Safety Study is not approved, the Chief Fire Official shall advise the owner or the owner’s agent of the decision and the reasons therefor in writing.
(4) Notification shall be served either personally or by ordinary mail.
(5) Where notification is by mail, it shall be deemed to have been served on the fifth day after the date of mailing.
Appeal
(6) An owner or the owner’s agent who feels aggrieved by a decision not to approve a Life Safety Study may, within thirty days of the refusal, appeal the decision in the same manner as though it were an Order.
(7) Despite any other provision of this Part, a Life Safety Study that has been approved and implemented shall be deemed to satisfy an Order requiring compliance with this Part and made with respect to the same premises before the Life Safety Study was accepted.
Record
9.1.4.8. A copy of an approved Life Safety Study shall be kept on the premises to which it relates and be made available to the Chief Fire Official upon request.
SECTION 9.2ASSEMBLY OCCUPANCIES
Subsection 9.2.1.Application
Assembly occupancies
9.2.1.1. (1) This Section applies to
(a) art galleries,
(b) auditoria,
(c) beverage establishments,
(d) bingo halls,
(e) clubs,
(f) community halls,
(g) dance halls,
(h) enclosed arenas,
(i) exhibition halls,
(j) gymnasia,
(k) halls in religious establishments (excluding areas of worship),
(l) lecture halls,
(m) lodge rooms,
(n) movie theatres,
(o) museums,
(p) opera houses,
(q) restaurants,
(r) television studios, and
(s) theatres.
(2) For the purposes of this Section,
(a) “1986 Building Code” means Ontario Regulation 419/86, as it read on February 11, 1987, and
(b) “existing” means in existence on February 11, 1987.
Exceptions
9.2.1.2. This Section does not apply to assembly occupancies in buildings that are regulated by or under the Education Act or the Ministry of Colleges and Universities Act.
9.2.1.3. This Section does not apply to a building or part of a building regulated by Section 9.9.
Subsection 9.2.2.Containment
Fire separations between major occupancies
9.2.2.1. (1) Fire separations shall be provided between assembly occupancies described in Subsection 9.2.1. and other major occupancies in compliance with Article 3.1.3.2. of the 1986 Building Code.
(2) Where a building is sprinklered and the sprinkler system complies with Article 9.2.5.2. or where a detection system is provided and connected to the building fire alarm system, and Sentence (1) requires
(a) a 2-hr fire separation, a 1-hr fire separation shall be deemed to be in compliance, or
(b) a 1-hr fire separation, a ½-hr fire separation shall be deemed to be in compliance.
Protection of openings in fire separations
9.2.2.2. (1) Closures that are in compliance with Sentences 3.1.6.4.(2) and 3.1.6.7.(1) of the 1986 Building Code shall be provided in fire separations.
(2) Where Sentence (1) requires
(a) a 1-hr or a 45-min fire-protection rating, existing hollow metal or kalamein doors, with or without wired glass and equipped with self-closing devices, and existing hollow metal frames shall be deemed to be in compliance,
(b) a 1-hr or a 45-min fire-protection rating, existing wired glass screens set in fixed steel frames shall be deemed to be in compliance, or
(c) a 20-min fire-protection rating, existing 45 mm solid core wood doors and existing solid wood frames shall be deemed to be in compliance.
(3) Despite the requirements referred to in Sentence (1), fire dampers or fire-stop flaps are not required to be installed in existing noncombustible ducts at penetrations of a fire separation.
Fire separations for hazardous areas
9.2.2.3. (1) In high buildings classified in the 1986 Building Code under Subsection 3.2.6., fire separations that are in compliance with Subsection 3.5.2. of the 1986 Building Code shall be provided between service rooms and assembly occupancies.
(2) In buildings not referred to in Sentence (1), fire separations that are in compliance with Subsection 3.5.2. of the 1986 Building Code shall be provided between service rooms and assembly occupancies.
(3) A ½-hr fire separation shall be deemed to be in compliance with Sentence (2) where
(a) the service room is sprinklered, or
(b) a detection system is provided and connected to the building fire alarm system.
(4) Fire separations shall be provided between theatrical stages and assembly occupancies in compliance with Sentences 3.3.2.14.(3) to (5) of the 1986 Building Code.
(5) Despite Sentence (4), existing fire separations may be approved.
Interior finishes
9.2.2.4. (1) Interior finishes shall comply with the flame-spread rating requirements under Clauses 3.1.4.5.(3)(g) and (h) and Subsection 3.1.11. of the 1986 Building Code.
(2) Where
(a) the finish is not an exposed expanded plastic, the assembly area is sprinklered and the sprinkler system complies with Article 9.2.5.2., the existing interior finish shall be deemed to be in compliance with Sentence (1), or
(b) the finish is treated with a fire retardant surface coating listed by a recognized testing laboratory and applied in accordance with the listing conditions, the finish shall be deemed to be in compliance with Sentence (1).
(3) Despite Sentence (1), existing interior finishes may be approved.
Subsection 9.2.3.Means of Egress
Occupant load determination
9.2.3.1. The occupant load for calculation of number and width of exits referred to in Articles 9.2.3.6. and 9.2.3.7. shall be in accordance with Article 2.7.1.4.
Access to exits; number and location
9.2.3.2. (1) Where the occupant load of a room exceeds 60 persons, at least two egress doorways shall be provided in such a manner that one doorway can provide egress if the other doorway becomes inaccessible to the occupants.
(2) An existing room with one doorway shall be deemed to be in compliance with Sentence (1) where
(a) the occupant load does not exceed 100 persons,
(b) the floor area is sprinklered and the sprinkler system complies with Article 9.2.5.2., and
(c) the travel distance does not exceed 23 m.
Access to exits
9.2.3.3. (1) Access to exits shall comply with Article 3.3.2.7. of the 1986 Building Code.
Dead end corridors
(2) Existing access to exits through dead end corridors shall be deemed to be in compliance with Sentence (1) where
(a) the occupant load does not exceed 20 persons, and
(b) the travel distance does not exceed 6 m plus the width of the dead end corridor to a point where a choice of two directions of exit travel are available.
Minimum number of exits
9.2.3.4. (1) Each floor area shall be served by at least two exits.
(2) Despite Sentence (1), floor areas in buildings not exceeding 2 storeys in building height may be served by one exit where
(a) the occupant load for the floor area does not exceed 60 persons,
(b) the floor area does not exceed 200 m2, and
(c) the travel distance from any point on the floor area does not exceed 15 m.
Door swing
9.2.3.5. Each door serving as an access to exit from a room serving more than 60 persons shall open in the direction of exit travel and shall swing on its vertical axis.
Number of exits
9.2.3.6. (1) The minimum number of exits from a floor area shall be provided as follows:
(a) occupant load of 61 up to and including 600 persons, not less than 2 exits,
(b) occupant load of 601 up to and including 1000 persons, not less than 3 exits, or
(c) occupant load of more than 1000 persons, not less than 4 exits.
Total width
9.2.3.7. (1) The aggregate required width of exits shall be determined by multiplying the occupant load of the area served by
(a) 6.1 mm (1/4 in) per person for ramps with a gradient of not more than 1 in 8, doorways, corridors and passageways, or
(b) 9.2 mm (3/8 in) per person for ramps with a gradient of more than 1 in 8 and stairs.
9.2.3.8. The width of an exit stair or of a corridor used as an access to exit or as an exit shall not be less than 900 mm.
9.2.3.9. Where the total number of exits and the total width of exits comply with Articles 9.2.3.6. and 9.2.3.7., existing corridor and stair widths shall be deemed to be in compliance with Article 9.2.3.8.
Fire escapes permitted
9.2.3.10. A fire escape may be erected on an existing building to provide one or more of the exit facilities described in Article 3.4.1.2. of the 1986 Building Code, provided that the fire escape does not serve floor areas above the fifth floor.
Fire escape construction
9.2.3.11. (1) Each fire escape shall be constructed to comply with Article 3.4.7.13. of the 1986 Building Code, except as permitted in Article 9.2.3.18.
(2) Despite Sentence (1), an existing fire escape may be approved.
Emergency lighting
9.2.3.12. Emergency lighting shall comply with Article 3.2.7.3. of the 1986 Building Code.
Exit signs
9.2.3.13. (1) Markings and signs for exits and access to exits shall comply with Subsection 3.4.5. of the 1986 Building Code.
(2) Despite Sentence (1), existing markings and signs may be approved.
9.2.3.14. In buildings over 2 storeys in building height, any part of an exit ramp or stair that continues past the exit door at ground level to a basement or cellar shall be clearly marked by a sign indicating that it does not lead to an exit.
Separation of exits
9.2.3.15. (1) Where an exit stairway, an escalator or a moving walkway serves as a required exit, it shall be separated from the remainder of the building in accordance with Sentence 3.4.4.1.(1) of the 1986 Building Code.
(2) Doors in fire separations required in Sentence (1) shall be equipped with self-closing devices.
(3) An existing ¾-hr fire separation with a ¾-hr rated closure as described in Clause 9.2.2.2.(2)(a) shall be deemed to be in compliance with Sentence (1).
(4) Existing wired glass screens set in fixed steel frames are acceptable in fire separations required by this Article.
Exits through lobbies
9.2.3.16. (1) Exits through a lobby area shall comply with the requirements of Clauses 3.4.4.1.(7)(c) to (f) of the 1986 Building Code.
(2) Despite Sentence (1), more than one exit may be permitted through a lobby area where there is at least one alternate exit capable of serving 50 per cent of the total capacity and leading directly to the outside.
Ancillary rooms
9.2.3.17. (1) Existing storage rooms, garbage rooms and laundry rooms, opening directly into an exit stairway, shall be sprinklered and the rooms shall be separated from the exit stairway by a ¾-hr fire separation.
(2) Existing washrooms and toilet rooms opening directly into an exit stairway shall be separated from the exit stairway by a ¾-hr fire separation.
(3) Despite Sentences (1) and (2), existing ancillary rooms opening directly into an exit stairway may be approved.
9.2.3.18. (1) Openings adjacent to fire escapes shall comply with Sentence 3.4.7.13.(5) of the 1986 Building Code.
(2) Existing openings shall be deemed to be in compliance with Sentence (1) where each opening is protected by sprinklers in conformance with Article 9.2.5.2.
(3) Despite Sentences (1) and (2), existing openings may be approved.
Subsection 9.2.4.Fire Alarm and Detection
Fire alarm systems
9.2.4.1. (1) Fire alarm and detection systems shall be installed in compliance with Subsection 3.2.4., excluding Article 3.2.4.7., of the 1986 Building Code.
(2) Despite Sentence (1), existing fire alarm systems may be approved where the system reliability and performance will not increase the risk of life safety.
Subsection 9.2.5.Suppression
Access for fire fighting
9.2.5.1. (1) Access for fire fighting shall comply with Sentence 3.2.5.2.(1) of the 1986 Building Code.
(2) Sentence (1) does not apply where the building is sprinklered.
(3) Access routes that do not comply with Sentence (1) may be approved where available fire department equipment has access to the building or alternative provisions are made under Subsection 2.8.2. for such access.
Sprinkler systems
9.2.5.2. (1) Except as permitted in Sentence (3), sprinkler systems shall comply with Article 3.2.5.5. of the 1986 Building Code.
(2) An existing sprinkler system shall be deemed to be in compliance with Sentence (1) where the average sprinkler discharge density over the design area is at least equal to the minimum density corresponding to the area for the hazard classification as defined in Table 9.2.5.A.
(3) Where buildings with a ceiling height in excess of 9 m are required to be sprinklered, the design of the system shall be approved prior to installation.
Water supply requirements
(4) The water supply requirements for an existing sprinkler system shall be based on
(a) the hazard classification, as determined in Table 9.2.5.A., and
(b) the minimum sprinkler discharge density, area of application and sprinkler spacing, as determined in NFPA 13, “Installation of Sprinkler Systems”, that corresponds to the hazard classification determined under Clause (a).
Arenas and exhibition halls
(5) Clause (4)(b) does not apply to the water supply requirements for an existing sprinkler system in an arena or an exhibition hall.
(6) The water supply requirements for an existing sprinkler system in an arena or an exhibition hall shall be based on the lesser area of
(a) 100 per cent of the display area, or
(b) 280 m2.
TABLE 9.2.5.A.
Forming Part of Article 9.2.5.2.
Hazard |
Occupancy |
Light Hazard |
Art galleries Beverage establishments Gymnasia Halls in religious establishments (excluding areas of worship) Lecture halls Museums |
Ordinary Hazard Group 1 |
Auditoria (excluding stages) Bingo halls Clubs Community halls Dance halls Lodge rooms Motion picture theatres Opera houses (excluding stages) Restaurants Television studios Theatres (excluding stages) |
Ordinary Hazard Group 3 |
Enclosed arenas Exhibition halls Stages excluded in Ordinary Hazard Group 1 |
*Hazard Classification is defined as per NFPA 13, “Installation of Sprinkler Systems”.
SECTION 9.3BOARDING, LODGING AND ROOMING HOUSES
Subsection 9.3.1.Application
Application
9.3.1.1. (1) This Section applies to boarding houses, lodging houses, rooming houses and private rest homes in which residents do not require care or treatment because of age, mental or physical limitations, where
(a) the building height does not exceed three storeys and the building area does not exceed 600 m2,
(b) lodging is provided for more than three persons in return for remuneration or the provision of services or both, and
(c) lodging rooms do not have both bathrooms and kitchen facilities for the exclusive use of individual occupants.
(2) This Section applies to homes for special care within the meaning of the Homes for Special Care Act, where
(a) the building height does not exceed three storeys and the building area does not exceed 600 m2,
(b) sleeping accommodation is provided for more than three but not more than ten residents, and
(c) residents do not require nursing care.
(3) For the purposes of this Section,
(a) “1986 Building Code” means Ontario Regulation 419/86, as it read on February 11, 1987, and
(b) “existing” means in existence on February 11, 1987.
9.3.1.2. Except as set out in Sentence 9.3.1.1.(2), this Section does not apply to residential occupancies that are regulated by or under the Ministry of Community and Social Services Act.
9.3.1.3. This Section does not apply to a building or part of a building regulated by Section 9.9.
Subsection 9.3.2.Containment
9.3.2.1. Fire separations required by this Section to have a fire-resistance rating shall comply with Subsection 9.10.3. of the 1986 Building Code.
Floor assemblies
9.3.2.2. (1) Floor assemblies shall
(a) be constructed as fire separations, and
(b) have a fire-resistance rating of not less than 30 min.
(2) Existing floor assemblies with ceilings consisting of lath and plaster, gypsum board or noncombustible materials shall be deemed to be in compliance with Sentence (1).
Basement fire separations
9.3.2.3. Where a basement does not contain a bedroom, recreation room, meeting room or hobby room, a fire separation having no fire-resistance rating between the basement and first storey shall be deemed to be in compliance with Clause 9.3.2.2.(1)(b).
Walls separating bedrooms
9.3.2.4. (1) Each guest room or suite of rooms shall have interior walls having a fire-resistance rating of not less than 30 min.
(2) Existing wall assemblies consisting of membranes of lath and plaster or gypsum wallboard shall be deemed to be in compliance with Sentence (1).
Furnace room separations
9.3.2.5. (1) In a building where the building height is greater than two storeys or the building area is greater than 400 m2, a furnace room that is located on a floor area that contains a bedroom, recreation room, meeting room or hobby room shall be separated from the remainder of the building by a fire separation having a fire-resistance rating of not less than 45 min.
(2) Existing fire separations consisting of membranes of lath and plaster or gypsum board shall be deemed to be in compliance with Sentence (1).
(3) Where the required vertical fire separation in a furnace room is maintained and it is not practical in the circumstances to construct the ceiling as a fire separation having a fire-resistance rating of not less than 45 min, the furnace room area shall be sprinklered with a spacing that does not exceed 9.5 m2 per sprinkler head.
(4) Closures in fire separations for a furnace room shall have a fire-protection rating of not less than 45 min.
(5) A hollow metal or kalamein door and frame shall be deemed to be in compliance with Sentence (4).
(6) Closures referred to in Sentences (4) and (5) shall be equipped with latches and self-closing devices.
(7) Despite Sentence (1), fire dampers or fire-stop flaps are not required in ducts at penetrations of a fire separation.
Combustion air
9.3.2.6. Where a furnace room is separated to comply with the requirements of Article 9.3.2.5., sufficient combustion air shall be brought directly from the exterior for the proper combustion and safe operation of the appliance.
Subsection 9.3.3.Means of Egress
Number of exits
9.3.3.1. (1) Each floor area shall be served by at least two exits.
(2) Where sleeping accommodation is not provided for more than ten persons, one exit from each of the first and second floor floor areas shall be deemed to be in compliance with Sentence (1).
(3) Where sleeping accommodation is not provided in the basement or cellar, one exit from the basement or cellar shall be deemed to be in compliance with Sentence (1).
Acceptable exits
9.3.3.2. (1) Exits required by Article 9.3.3.1. shall comply with the requirements of Articles 9.9.2.2. and 9.9.2.3. of the 1986 Building Code.
(2) Despite Sentence 9.3.3.5.(1), not more than one required exit from the basement or cellar may lead through the first floor floor area.
(3) Where sleeping accommodation is not provided for more than ten persons, corridors that are contiguous to a stairway may form part of the stairway enclosure.
(4) Only one stairway enclosure described in Sentence (3) shall be permitted as an exit.
(5) Where a fire escape of the type referred to in Article 9.3.3.4. is used as an exit, it shall be deemed to comply with the requirements of Articles 9.9.2.2. and 9.9.2.3. of the 1986 Building Code.
9.3.3.3. Despite Articles 9.3.3.1. and 9.3.3.2., alternative measures may be approved where, in the opinion of the Chief Fire Official, they will provide protection for life safety similar to the protection provided by compliance with Articles 9.3.3.1. and 9.3.3.2.
Fire escapes
9.3.3.4. (1) Each fire escape used as an exit shall be constructed in compliance with Article 3.4.7.13., excluding Sentences (4) and (5), of the 1986 Building Code.
(2) Despite Sentence (1), existing fire escapes may be approved.
(3) Access to fire escapes shall be from corridors.
Protection of exits
9.3.3.5. (1) Each exit other than a doorway opening directly onto a fire escape or to the outdoors at ground level shall be separated from the remainder of the building or from another exit by a fire separation having a fire-resistance rating of not less than 30 min.
(2) Existing exit stairways separated from the remainder of the building by walls consisting of lath and plaster or gypsum wallboard shall be deemed to be in compliance with Sentence (1).
(3) Despite Sentence (1), an existing separation of noncombustible material may be approved.
Interior stairways
9.3.3.6. (1) Floor separations shall be maintained at interior stairways that are not required exits.
(2) The floor separation shall be maintained at an exit permitted in Sentence 9.3.3.2.(2).
9.3.3.7. Floor separations required in Article 9.3.3.6. shall be rated in accordance with Articles 9.3.2.2. and 9.3.3.5.
Protection of openings in fire separations
9.3.3.8. (1) Closures in fire separations required in Articles 9.3.3.5. and 9.3.3.6. shall be constructed in accordance with Article 9.10.3.1. of the 1986 Building Code with a minimum 20-min fire-protection rating.
(2) Closures located along contiguous corridors permitted in Sentence 9.3.3.2.(3) shall comply with Sentence (1).
Doors and screens
(3) A 45 mm solid core wood, hollow metal or kalamein door, equipped with a self-closing device and a latching device, shall be deemed to be in compliance with Sentences (1) and (2).
(4) Despite Sentences (1) and (2), frames for doors described in Sentence (3) may be of wood, hollow metal or kalamein construction.
(5) Despite Sentences (1) and (2), fire dampers or fire-stop flaps are not required in ducts at penetrations of a fire separation.
9.3.3.9. Existing wired glass closures set in fixed steel frames in a fire separation shall be deemed to be in compliance with Article 9.3.3.8.
Exit signs
9.3.3.10. (1) Exit signs shall be located along a means of egress so that directions of exit travel are apparent to the occupants.
(2) Exit signs required by Sentence (1) shall have the word “EXIT” in block letters and such letters shall be
(a) internally or externally illuminated,
(b) coloured red on an opaque or contrasting field, and
(c) at least 115 mm high with a 19 mm stroke.
Interior finishes
9.3.3.11. The flame-spread rating of interior finishes on walls and ceilings within a means of egress shall not exceed 200.
Illumination of egress
9.3.3.12. Corridors and stairways shall be lighted to the intensity of 50 lx measured at the floor level, or 5 watts per square metre of floor area.
Emergency lighting
9.3.3.13. Where sleeping accommodation is provided for more than ten persons, emergency lighting shall be provided to corridors and stairways in accordance with Articles 9.9.11.4. and 9.9.11.5. of the 1986 Building Code.
Subsection 9.3.4.Fire Alarm and Detection
Fire alarm requirements
9.3.4.1. (1) A building to which this Section applies that does not have floor assemblies having a minimum ¾-hr fire-resistance rating and public corridors or corridors serving sleeping rooms not within a dwelling unit that are not fire separated from the remainder of the building by a minimum ½-hr fire-resistance rating shall have a fire alarm system that complies with Articles 9.10.17.5. and 9.10.17.11. of the 1986 Building Code, and shall have
(a) smoke alarms that comply with Sentence (2) and that are installed and interconnected so that the activation of any smoke alarm will sound a similar signal in each of the interconnected devices, or
(b) fire alarm system smoke detectors installed on the ceiling of each floor adjacent to each stairway, and on the ceiling in the basement adjacent to each stairway.
(2) Smoke alarms referred to in Clause (1)(a) shall
(a) be installed on the ceiling in the corridor of each floor adjacent to each stairway and on the ceiling in the basement adjacent to each stairway,
(b) be on a separate circuit with no disconnect switch between the overcurrent device and the smoke alarms, and
(c) employ devices and an interconnected installation that are listed.
9.3.4.2. (1) A fire alarm system complying with Articles 9.10.17.4., 9.10.17.5., 9.10.17.11. and Subsection 9.10.18. of the 1986 Building Code shall be installed where
(a) sleeping accommodation is provided for more than ten persons, and
(b) the floor assemblies have a minimum ¾-hr fire-resistance rating and public corridors or corridors serving sleeping rooms not within a dwelling unit are fire separated from the remainder of the building by a minimum ½-hr fire-resistance rating.
9.3.4.3. Where a fire alarm system is required and sleeping accommodation is not provided for more than 14 persons, an interconnected smoke alarm system in accordance with Clause 9.3.4.1.(1)(a) shall be deemed to be in compliance with Article 9.3.4.2.
9.3.4.4. Despite Articles 9.3.4.1. and 9.3.4.2., existing fire alarm systems may be approved where the system reliability and performance will not increase the risk of life safety.
Subsection 9.3.5.Suppression
Portable extinguishers
9.3.5.1. (1) Despite the provisions of Articles 6.2.4.1., 6.2.6.4., 6.2.6.5. and 6.2.6.7., at least one 2A rated portable extinguisher shall be provided on each floor.
(2) At least one 5BC rated portable extinguisher shall be installed in each kitchen where shared cooking facilities exist.
SECTION 9.4HEALTH CARE FACILITIES
Subsection 9.4.1.Application
Application
9.4.1.1. (1) This Section applies to
(a) Homes for Special Care, regulated under the Homes for Special Care Act, where sleeping accommodation is provided for more than ten residents,
(b) Homes for the Aged, regulated under the Homes for the Aged and Rest Homes Act,
(c) Homes for the Aged, regulated under the Charitable Institutions Act,
(d) Nursing Homes, regulated under the Nursing Homes Act,
(e) Private Hospitals, regulated under the Private Hospitals Act, and
(f) Public Hospitals, regulated under the Public Hospitals Act.
(2) For the purposes of this Section,
(a) “1986 Building Code” means Ontario Regulation 419/86, as it read on February 11, 1987, and
(b) “existing” means in existence on February 11, 1987.
Subsection 9.4.2.Containment
Construction
9.4.2.1. (1) Existing buildings shall comply with the applicable construction requirements of Articles 9.4.2.2. to 9.4.2.4.
(2) Fire separations required by this Section to have a fire-resistance rating shall comply with Subsection 3.1.5. and Articles 3.1.6.1.,3.1.6.2. and 3.1.6.3. of the 1986 Building Code.
(3) Where a ¾-hr or less fire-resistance rating is required, existing wall assemblies, floor assemblies and their supporting assemblies consisting of membranes of lath and plaster or gypsum board shall be deemed to be in compliance with Sentences (1) and (2).
(4) Existing buildings with limited combustible components may be approved as noncombustible construction.
(5) Heavy timber construction conforming to Article 3.1.4.4. of the 1986 Building Code shall be deemed to have a ¾-hr fire-resistance rating.
(6) Floor assemblies shall be fire separations with fire-resistance ratings as required in this Subsection.
Combustible construction up to two storeys
9.4.2.2. (1) Buildings of combustible construction shall comply with the provisions of Sentence (2) where the building is
(a) one storey in building height and not greater than 1000 m2 in building area, or
(b) two storeys in building height and not greater than 500 m2 in building area.
(2) Floor assemblies and walls, columns and arches supporting floor assemblies shall have a ¾-hr fire-resistance rating.
(3) Despite Sentence (2), where the building is sprinklered, a fire-resistance rating is not required for floor assemblies and walls, columns and arches supporting floor assemblies.
Combustible construction up to four storeys
9.4.2.3. (1) Buildings of combustible construction shall comply with the provisions of Sentences (2) and (3) where the building is
(a) not more than one storey in building height and not greater than 2400 m2 in building area,
(b) not more than two storeys in building height and not greater than 1600 m2 in building area, or
(c) not more than four storeys in building height and not greater than 500 m2 in building area.
(2) Floor assemblies and walls, columns and arches supporting floor assemblies shall have a ¾-hr fire-resistance rating.
(3) Despite Sentence 9.4.4.2.(2), smoke detectors shall be provided in bedrooms, corridors, lounges and sitting areas.
(4) A building that is sprinklered shall be deemed to be in compliance with Sentences (2) and (3).
All other buildings
9.4.2.4. (1) Buildings not described in Articles 9.4.2.2. and 9.4.2.3. shall
(a) have a ¾-hr fire-resistance rating for floor assemblies and walls, columns and arches supporting floor assemblies, and
(b) be sprinklered, where the building is of combustible construction.
(2) Where only the roof assembly is of combustible construction,
(a) sprinklering of the top storey and attic space shall be deemed to be in compliance with Clause (1)(b), or
(b) a ceiling membrane with a ¾-hr fire-resistance rating and fire stopping of the attic space in accordance with the requirements of Article 3.1.9.3. of the 1986 Building Code shall be deemed to be in compliance with Clause (1)(b).
Fire separations between occupancies
9.4.2.5. (1) Fire separations having a 1-hr fire-resistance rating shall be provided between occupancies regulated under this Section and other major occupancies.
(2) Where the building is sprinklered and the sprinkler system complies with Article 9.4.5.2. or where the other major occupancy is equipped with heat detectors and connecting corridors are equipped with smoke detectors, a ½-hr fire separation shall be deemed to be in compliance with Sentence (1).
(3) Existing wall or floor assemblies consisting of masonry or membranes of lath and plaster or gypsum board shall be deemed to be in compliance with Sentence (1).
Fire separations between bedrooms and corridors
9.4.2.6. (1) Bedrooms or suites of rooms shall be separated from adjacent rooms by fire separations having a ¾-hr fire-resistance rating.
(2) Corridors serving bedrooms shall be separated from adjacent rooms, except sitting areas, lounges, nurses stations and washrooms, by fire separations having a ¾-hr fire-resistance rating.
(3) Where the floor area is sprinklered, an existing fire separation shall be deemed to be in compliance with Sentences (1) and (2).
(4) Where smoke detectors are installed in bedrooms, sitting areas, lounges and corridors serving bedrooms on the floor area and where heat detectors are installed in other rooms opening onto corridors serving bedrooms, a ½-hr fire separation shall be deemed to be in compliance with Sentences (1) and (2).
Safe areas of refuge
9.4.2.7. (1) Floor areas containing rooms or areas used by the residents shall be divided by ¾-hr fire separations separating the floor area into at least two zones.
(2) Each zone required in Sentence (1) shall
(a) contain at least one acceptable exit, and
(b) be able to accommodate, in addition to its own occupants, the occupants of the adjacent zone, based on the requirements of 0.5 m2 of clear floor space per person, 1.6 m2 per person in a wheelchair, and 2.4 m2 for each bedridden patient as the occupancy requires.
(3) A fire separation is not required under Sentence (1) where
(a) the travel distance between exits does not exceed 9 m and the number of occupants on the floor area is not more than ten persons, or
(b) the floor area is served by exterior exit doors leading directly to the outside.
Protection of openings in fire separations
9.4.2.8. (1) Closures in fire separations shall comply with the requirements of Sentences 3.1.6.4.(2), 3.1.6.7.(1) and 3.1.6.8.(1) and Article 3.1.6.9. of the 1986 Building Code.
(2) Where a ½-hr fire separation is permitted, closures shall have a 20-min fire-protection rating.
Doors and screens
(3) Where Sentences (1) and (2) require
(a) a 1 ½-hr fire-protection rating, existing hollow metal doors, with or without wired glass panels not exceeding 645 cm2, equipped with self-closing devices and existing hollow metal frames shall be deemed to be in compliance,
(b) a ¾-hr fire-protection rating, existing hollow metal or kalamein doors, with or without wired glass, equipped with self-closing devices and existing hollow metal frames shall be deemed to be in compliance,
(c) a ¾-hr fire-protection rating, existing wired glass screens set in fixed steel frames shall be deemed to be in compliance, or
(d) a 20-min fire-protection rating, existing 45 mm solid core wood doors and existing solid wood frames shall be deemed to be in compliance.
(4) Existing doors to bedrooms not conforming to Sentences (1) to (3) may be approved.
(5) Despite Sentence (1), and except as permitted in Article 9.4.2.9., door assemblies required to have a 20-min fire-protection rating shall be equipped with self-closing devices.
(6) Despite Sentences (1) and (2), fire dampers or fire-stop flaps are not required in ducts at penetrations of an existing fire separation.
Latches on bedroom doors
9.4.2.9. Where a door to a bedroom is not equipped with a self-closing device, a latch that can hold the door in the closed position shall be installed.
Fuel-fired appliance service rooms
9.4.2.10. (1) Fuel-fired appliances shall be enclosed in a service room separated from the remainder of the building by a fire separation having a ¾-hr fire-resistance rating.
(2) Sentence (1) does not apply to fireplaces.
(3) Despite Sentence (1), where the required vertical fire separation to a service room is provided and it is not practical in the circumstances to install a ¾-hr fire separation above the service room, the service room area shall be sprinklered with a spacing not exceeding 9.5 m2 per sprinkler head.
Combustion air
9.4.2.11. Where a furnace room is separated to comply with the requirements of Article 9.4.2.10., sufficient combustion air shall be brought directly from the exterior for the proper combustion and safe operation of the appliance.
Transformer vaults
9.4.2.12. A transformer vault shall be separated from the remainder of the building by a fire separation having a 2-hr fire-resistance rating.
Vertical service spaces
9.4.2.13. (1) Vertical service spaces shall be separated from the remainder of the building by a fire separation having a ¾-hr fire-resistance rating.
(2) Where openings in the vertical service space, including the top and bottom, are sealed with noncombustible materials having the same fire-resistance rating as the existing construction, the vertical service space shall be deemed to be in compliance with Sentence (1).
Refuse and linen chutes
9.4.2.14. (1) Automatic sprinklers shall be installed at the top and at alternate floor levels in each linen or refuse chute and in the room or bin into which the chute discharges.
(2) An existing linen chute installation shall be deemed to be in compliance with Sentence (1) where the room into which the linen chute discharges is sprinklered and at least 1 sprinkler head is installed at the top of the linen chute.
(3) Each room into which a linen or refuse chute discharges shall be separated from the remainder of the building by a fire separation having a 1-hr fire-resistance rating.
Incinerator rooms
9.4.2.15. Incinerators shall be enclosed in a service room separated from the remainder of the building by a fire separation having a 2-hr fire-resistance rating.
Subsection 9.4.3.Means of Egress
Access to exits
9.4.3.1. (1) Bedrooms or suites of rooms on a floor area shall have a doorway leading to an interior corridor where it shall be possible to go in opposite directions to each of two separate exits.
Dead end corridors
(2) Access to exits through a dead end corridor shall be deemed to be in compliance with Sentence (1) where
(a) the number of persons served does not exceed ten persons, and
(b) the travel distance does not exceed 6 m plus the width of the dead end corridor, to a point where a choice of two directions of exit travel is available.
(3) Where a bedroom or a suite of rooms is served by an exit door leading directly to the outside or to an exterior passageway, a doorway leading to an interior corridor served by one exit shall be deemed to be in compliance with Sentences (1) and (2).
(4) Where a dead end corridor does not satisfy the travel distance as described in Sentence (2), the existing corridor shall be deemed to be in compliance where additional fire protection measures are provided that are approved.
Number of exits
9.4.3.2. Each floor area used by patients or residents shall be served by not fewer than two exits.
Stairway separations
9.4.3.3. (1) Each exit stairway shall be separated from the remainder of the building by a fire separation having a ¾-hr fire-resistance rating.
(2) Closures in stairway fire separations shall conform to Article 9.4.2.8.
Door swing
9.4.3.4. (1) Each exit door shall open in the direction of exit travel and swing on its vertical axis.
(2) Existing door swing arrangements not in conformance with Sentence (1) may be approved.
Exit signs
9.4.3.5. (1) Signs for exits and access to exits shall comply with the requirements of Article 3.4.5.1. of the 1986 Building Code.
(2) Despite Sentence (1), existing signs may be approved.
Fire escapes
9.4.3.6. (1) A fire escape shall not be erected on an existingbuilding unless it is not practical in the circumstances to provide one or more exit facilities, described under Article 3.4.1.2. of the 1986 Building Code, and provided that the fire escape does not serve floor areas above the second floor.
(2) A fire escape permitted under Sentence (1) shall be constructed to comply with the requirements of Article 3.4.7.13. of the 1986 Building Code, except that the fire escape shall not be less than 1100 mm in width when serving floor areas with non-ambulatory residents.
(3) Despite Sentences (1) and (2), an existing fire escape may be approved.
Emergency lighting
9.4.3.7. Emergency lighting shall be provided in accordance with the provisions of Article 3.2.7.3. of the 1986 Building Code.
Subsection 9.4.4.Fire Alarm and Detection
Fire alarm requirements
9.4.4.1. A fire alarm and detection system shall be installed in each building.
9.4.4.2. (1) Fire alarm and detection systems shall comply with the requirements of Subsection 3.2.4. of the 1986 Building Code.
(2) Despite Sentence (1), in buildings constructed prior to December 1, 1983, heat detectors may be installed in bedrooms, corridors and stair shafts to satisfy the 1986 Building Code, except where other detection is required by Sentences 9.4.2.3.(3), 9.4.2.5.(2) or 9.4.2.6.(4).
(3) Despite Sentences (1) and (2), where the Chief Fire Official is satisfied that the performance and reliability of an existing fire alarm system will provide an adequate early warning level, the existing system may remain, be modified or be extended, provided compatibility of components is maintained.
Signals to fire department
9.4.4.3. (1) Each fire alarm system shall be connected to the fire department headquarters by
(a) a direct connection, provided the fire department has the necessary facilities to accept such a connection, or
(b) a central station or proprietary control station.
(2) Where the provisions required in Sentence (1) are not available, a procedure for notifying the fire department shall be approved.
Shutdown of air handling systems
9.4.4.4. (1) Recirculating air handling systems that serve more than one storey or more than one zone as described in Sentence 9.4.2.7.(1) shall be arranged to shut down upon actuation of the fire alarm system.
(2) In buildings greater than six storeys in building height, air handling systems serving more than one storey or more than one zone as described in Article 9.4.2.7. shall be arranged to shut down upon actuation of the fire alarm system, except where continued operation of the air handling system serves as part of a smoke control system.
Subsection 9.4.5.Suppression
Access for fire fighting
9.4.5.1. (1) Access routes for fire fighting shall be provided in accordance with the requirements of Article 3.2.5.2. of the 1986 Building Code.
(2) Sentence (1) does not apply where the building is sprinklered.
(3) Access routes that do not comply with Sentence (1) may be approved where available fire department equipment has access to the building or alternative provisions are made under Subsection 2.8.2. for such access.
Sprinkler systems
9.4.5.2. (1) Sprinkler systems shall be designed in conformance with Article 3.2.5.5. of the 1986 Building Code.
(2) Despite Sentence (1), water supply requirements for sprinkler systems required in this Section may be based on,
(a) the operation of at least 3 sprinkler heads spaced not to exceed 14.4 m2 per head, and
(b) a sprinkler discharge rate of not less than 100 L/min at any single operating sprinkler head for a duration of 30 minutes.
(3) Despite Sentences (1) and (2), existing sprinkler systems providing adequate protection may be approved.
Firefighters’ elevators
9.4.5.3. (1) Despite the provisions of Clause 2.8.2.3.(1)(b), in buildings greater than six storeys in building height, at least one elevator shall be provided for use by firefighters.
(2) An elevator shall be deemed to be in compliance with Sentence (1) where
(a) the elevator is capable of providing transportation from the street floor to each floor normally served by the elevator system,
(b) the elevator is identified on the street floor as an elevator for use by firefighters,
(c) the elevator satisfies the requirements of Article 3.2.6.3. of the 1986 Building Code, and
(d) other elevator cabs in the same shaft as the elevator for use by firefighters satisfy the requirements of Sentences 3.2.6.3.(1) and (2) of the 1986 Building Code.
Voice communication systems
9.4.5.4. (1) In buildings greater than six storeys in building height, a voice communication system shall be provided in accordance with the requirements of Article 3.2.4.16. of the 1986 Building Code.
(2) A public address system compatible with the fire safety plan required under Subsection 2.8.2. shall be deemed to be in compliance with Sentence (1).
SECTION 9.5BUILDINGS UP TO AND INCLUDING SIX STOREYS IN BUILDING HEIGHT WITH RESIDENTIAL OCCUPANCIES
Subsection 9.5.1.Application
Application
9.5.1.1. (1) This Section applies to buildings up to and including six storeys in building height with residential occupancies and containing
(a) more than two dwelling units where
(i) at least two dwelling units share common exit facilities and have interior access to one another,
(ii) there is at least one dwelling unit located above another with interior access to one another, or
(iii) there is at least one dwelling unit located above another and the dwelling units share common exit facilities,
(b) sleeping accommodation for more than ten persons, in one or more dormitories,
(c) boarding, lodging or rooming accommodation for more than three persons where Sections 9.3 and 9.4. do not apply, or
(d) one or two dwelling units in combination with boarding, lodging or rooming accommodation for two or three persons, excluding the operator’s residence.
(2) Despite Sentence (1), if the building contains other occupancies, this Section does not apply to the fire safety systems, devices and structural elements of the other occupancies that do not affect the life safety of the residential occupancy.
(3) If a building contains areas that are governed by this Section and by another Section in this Part, the fire safety systems, devices and structural elements applicable to those areas shall comply with the requirements of this Section and the other Section that provide the greatest protection for life safety.
(4) For the purposes of this Section,
(a) “1990 Building Code” means Ontario Regulation 413/90, as it read on October 9, 1992, and
(b) “existing” means in existence on October 9, 1992.
Exemptions
9.5.1.2. Convents and monasteries are exempt from this Section.
9.5.1.3. This Section does not apply to a building or part of a building regulated by Section 9.9.
Subsection 9.5.2.Containment
Construction
9.5.2.1. (1) Existing buildings shall comply with the applicable construction requirements of Articles 9.5.2.2. to 9.5.2.5.
(2) Fire separations required by this Section to have a fire-resistance rating shall be in accordance with Subsection 3.1.7. and Articles 3.1.8.1., 3.1.8.2., 3.1.8.3. and 3.5.4.2. of the 1990 Building Code.
(3) Where a 45-min or less fire-resistance rating is required, existing wall assemblies, floor assemblies, ceilings and their supporting assemblies, consisting of membranes of lath and plaster or gypsum board, shall be deemed to be in compliance with Sentence (2).
(4) Heavy timber construction conforming to Article 3.1.4.6. of the 1990 Building Code shall be deemed to have a 45-min fire-resistance rating.
(5) Buildings with limited combustible components may be approved as noncombustible construction.
(6) Floor assemblies shall be fire separations with fire-resistance ratings as required by Articles 9.5.2.2. to 9.5.2.5.
(7) Sentence (6) does not apply to floor assemblies between different levels of the same multi-level dwelling unit.
Buildings up to three storeys
9.5.2.2. (1) Buildings shall be in compliance with the requirements of Sentence (2) where the building is
(a) not more than one storey in building height and not greater than 1200 m2 in building area,
(b) not more than two storeys in building height and not greater than 900 m2 in building area, or
(c) not more than three storeys in building height and not greater than 600 m2 in building area.
(2) Floor assemblies and walls, columns and arches supporting floor assemblies shall have a 30-min fire-resistance rating.
(3) Where sleeping accommodation, recreation rooms, meeting rooms or hobby rooms are not provided in the basement, an existing fire separation between the first storey and basement shall be deemed to be in compliance with Sentence (2) where
(a) the basement is sprinklered, or
(b) the building contains not more than four dwelling units and provides sleeping accommodation for not more than ten persons, and
(i) interconnected smoke alarms are installed in accordance with Article 9.5.4.4.,
(ii) doors connecting the basement and first storey are in compliance with Sentence 9.5.2.8.(4), and
(iii) fire stopping of the wall space at the basement level is in accordance with Article 9.10.15.3. of the 1990 Building Code.
(4) The water supply for the sprinklers referred to in Clause (3)(a) may be taken from the domestic supply where the supply provides sufficient density for the largest fire compartment and where the supply is approved.
Deemed compliance
9.5.2.3. (1) Buildings shall be deemed to be in compliance with Sentence 9.5.2.2.(2) where
(a) the building is sprinklered, or
(b) the building is one storey in building height and is not greater than 600 m2 in building area.
Buildings up to four storeys
9.5.2.4. (1) Buildings to which Sentence 9.5.2.2.(1) does not apply and which are not more than four storeys in building height shall comply with Sentences (2) and (3).
(2) Floor assemblies and walls, columns and arches supporting floor assemblies shall have a 45-min fire-resistance rating.
(3) Smoke detectors shall be provided as fire detectors in public corridors serving dwelling units in buildings of combustible construction.
(4) A building that is sprinklered shall be deemed to be in compliance with Sentences (2) and (3).
Buildings over four storeys
9.5.2.5. (1) Buildings that are more than four storeys in building height shall
(a) have a 45-min fire-resistance rating for floor assemblies and walls, columns and arches supporting floor assemblies, and
(b) be sprinklered, where the building is of combustible construction.
(2) Where only the roof assembly is of combustible construction, the building shall be deemed to be in compliance with Clause (1)(b) where
(a) the ceiling membrane has a 45-min fire-resistance rating and the attic space is fire stopped in accordance with Article 3.1.11.5. of the 1990 Building Code,
(b) the roof assembly is of heavy timber construction in accordance with Article 3.1.4.6. of the 1990 Building Code, or
(c) the top storey and attic space are sprinklered.
(3) Where smoke detectors are provided in public corridors, a building of heavy timber construction conforming to Article 3.1.4.6. of the 1990 Building Code shall be deemed to be in compliance with Sentence (1).
Fire separations between occupancies
9.5.2.6. (1) Fire separations having a 1-hr fire-resistance rating shall be provided between residential occupancies and other major occupancies.
(2) Existing fire separations having a 30-min fire-resistance rating shall be deemed to be in compliance with Sentence (1) where
(a) the building is sprinklered and the sprinkler system complies with Article 9.5.5.3., or
(b) the part of the building containing the other major occupancy is equipped with heat detectors and connecting corridors are equipped with smoke detectors as part of the fire alarm system of the building.
(3) Existing fire separations consisting of membranes of lath and plaster or gypsum board shall be deemed to be in compliance with Sentence (1).
Fire separations between dwelling units and corridors
9.5.2.7. (1) Each dwelling unit and sleeping room not within a dwelling unit shall be separated from adjacent rooms and areas by fire separations having a 30-min fire-resistance rating.
(2) Public corridors shall be separated from adjacent rooms and areas by fire separations having a 30-min fire-resistance rating.
(3) Where the floor area is sprinklered, existing fire separations having less than a 30-min fire-resistance rating shall be deemed to be in compliance with Sentences (1) and (2).
Protection of openings in fire separations
9.5.2.8. (1) Closures in fire separations shall be in accordance with Sentences 3.1.8.4.(2), 3.1.8.10.(1) and 3.1.8.11.(1) and Article 3.1.8.13. of the 1990 Building Code.
(2) Openings in a fire separation having a 30-min fire-resistance rating shall be protected with closures having a 20-min fire-protection rating.
Doors and screens
(3) Where a 45-min fire-protection rating is required, existing closures consisting of
(a) hollow metal or kalamein doors in hollow metal frames, with openings, if any, protected by wired glass, and equipped with self-closing devices, or
(b) wired glass screens set in fixed steel frames
shall be deemed to be in compliance with Sentence (1).
(4) Where a 20-min fire-protection rating is required, existing closures consisting of 45 mm (1 ¾-in) solid core wood doors installed in solid wood or hollow metal frames and equipped with self-closing devices shall be deemed to be in compliance with Sentences (1) and (2).
(5) Existing closures in fire separations to which Article 9.5.2.7. applies shall be deemed to be in compliance with Sentences (1) and (2) where
(a) the floor area is sprinklered, or
(b) interconnected smoke alarms are installed in accordance with Article 9.5.4.4., the building has not more than four dwelling units and the building provides sleeping accommodation for not more than ten persons.
(6) Despite Sentence (1), closures in fire separations to which Article 9.5.2.7. applies do not require self-closing devices, except as required in Sentences 9.5.3.1.(2) and 9.5.3.3.(3).
(7) Existing operable transoms and glass lights shall be fixed shut and shall meet the fire-protection rating requirements of Sentences (1) and (2).
(8) Despite Sentences (1) and (2), fire dampers or fire-stop flaps are not required in existing noncombustible ducts at penetrations of fire separations.
Storage rooms
9.5.2.9. (1) Storage rooms for the use of occupants, not contained within a dwelling unit or suite,
(a) shall be separated from the remainder of the building by a fire separation having a 45-min fire-resistance rating, and
(b) shall be
(i) sprinklered, or
(ii) subdivided into areas not exceeding 150 m2 by fire separations having a 45-min fire-resistance rating and equipped with fire detectors connected to the fire alarm system.
(2) Existing storage rooms shall be deemed to be in compliance with Clause (1)(b) where the building contains not more than four dwelling units and provides sleeping accommodation for not more than ten persons.
(3) Existing storage rooms shall be deemed to be in compliance with Sentence (1) where
(a) the building contains not more than four dwelling units and provides sleeping accommodation for not more than ten persons, and
(b) sleeping rooms are not located on the same floor as storage rooms.
Fuel-fired appliance service rooms
9.5.2.10. (1) Fuel-fired appliances shall be enclosed in a service room separated from the remainder of the building by a fire separation having a 45-min fire-resistance rating where the building height is greater than two storeys or the building area is greater than 400 m2.
(2) Sentence (1) does not apply to fireplaces within a dwelling unit or suite.
(3) Despite Sentence (1), the fire-resistance rating of the fire separation above the service room is not required where
(a) the required vertical fire separation to a service room is provided, and
(b) the service room area is sprinklered, with a spacing not exceeding 9.5 m2 per sprinkler head, or providing a minimum average density of 6.5 L/min/m2 over the room area.
Combustion air
9.5.2.11. Where a service room is separated in accordance with Article 9.5.2.10., sufficient combustion air shall be brought directly from the outside for the proper combustion and safe operation of the appliances.
Incinerator and refuse storage rooms
9.5.2.12. (1) Incinerator rooms and refuse storage rooms shall be separated from the remainder of the building by a fire separation having a 45-min fire-resistance rating.
(2) Refuse storage rooms shall be sprinklered with a spacing not exceeding 9.5 m2 per sprinkler head or providing a minimum average density of 6.5 L/min/m2 over the room area.
Vertical service spaces
9.5.2.13. (1) Vertical service spaces shall be separated from the remainder of the building by a fire separation having a fire-resistance rating equivalent to that required for the floor assemblies within the building in accordance with Articles 9.5.2.2. to 9.5.2.5.
(2) Where openings in the vertical service space, including the top and bottom, are sealed with noncombustible materials having the same fire-resistance rating as the existing construction, the vertical service space shall be deemed to be in compliance with Sentence (1).
Refuse and linen chutes
9.5.2.14. (1) Each room into which a linen or refuse chute discharges shall be separated from the remainder of the building by a fire separation having a 1-hr fire-resistance rating.
(2) Automatic sprinklers shall be installed in each linen or refuse chute
(a) at the top,
(b) at alternate floor levels, and
(c) in the room or bin into which the chute discharges.
(3) Where the room into which the chute discharges is sprinklered and at least one sprinkler head is installed at the top of the chute, an existing chute installation shall be deemed to be in compliance with Sentence (2).
(4) Despite Sentence 9.5.2.1.(2), a closure is not required at the opening between the chute and the room into which it discharges.
Storage garages
9.5.2.15. A storage garage shall be separated from the remainder of the building by a fire separation having a 45-min fire-resistance rating.
Subsection 9.5.3.Means of Egress
Access to exits
9.5.3.1. (1) Each dwelling unit or suite in a floor area shall have a doorway leading to
(a) the outside at or near grade,
(b) an outside passageway where it is possible to go in opposite directions to separate exits, or
(c) a public corridor where it is possible to go in opposite directions to separate exits.
Dead end corridors
(2) Access to exits through a dead end public corridor shall be deemed to be in compliance with Clause (1)(c) where
(a) the travel distance does not exceed 6 m plus the width of the corridor, measured from any door along the corridor to a point where a choice of two directions of exit travel is available, and
(b) self-closing devices are provided on suite entrance doors opening onto the dead end portion of the corridor.
(3) Access to exits through a dead end corridor in boarding, lodging or rooming accommodation shall be deemed to be in compliance with Clause (1)(c) where
(a) the building is not more than 3 storeys in building height,
(b) sleeping accommodation is provided for not more than ten persons,
(c) not more than two persons require assistance to evacuate the building in a fire emergency,
(d) smoke alarms are installed in the means of egress in accordance with Sentence 9.5.4.1.(2), and
(e) the building complies with the requirements of Section 2.8.
(4) Existing dead end public corridors shall be deemed to be in compliance with Clause (2)(a) where additional fire protection measures are approved that, in the opinion of the Chief Fire Official, will provide protection for life safety similar to the protection provided by compliance with Clause (2)(a).
(5) Despite Sentence (1), a doorway from a dwelling unit or suite may open onto
(a) an exit stairway,
(b) a fire escape,
(c) a public corridor served by a single exit, or
(d) an outside passageway served by a single exit stairway,
if the dwelling unit or suite has access to a second and separate exit or the building is in compliance with Sentence 9.5.3.2.(2) or (3).
Number of exits
9.5.3.2. (1) Each floor area shall be served by a minimum of two exits.
(2) A single exit from a basement, first or second floor shall be deemed to be in compliance with Sentence (1) where the exit does not serve more than four dwelling units, the exit does not serve more than ten persons and the building is not more than three storeys in building height and is not greater than 600 m2 in building area.
(3) Where a building is not more than three storeys in building height and not greater than 600 m2 in building area, alternative measures to Sentence (1) may be used if they are approved, and in the opinion of the Chief Fire Official, will provide protection for life safety similar to the protection provided by compliance with Sentence (1).
Stairway separations
9.5.3.3. (1) Each exit stairway shall be separated from the remainder of the building by a fire separation having a 45-min fire-resistance rating.
(2) Where the building is not more than three storeys in building height, a fire separation having a 30-min fire-resistance rating shall be deemed to be in compliance with Sentence (1).
(3) Closures in stairway fire separations referred to in Sentences (1) and (2) shall be equipped with self-closing devices.
Door swing
9.5.3.4. Where the occupant load in a building exceeds twenty-four persons or there are more than ten dwelling units, each exit door, except those serving a single dwelling unit, shall open in the direction of exit travel and swing on its vertical axis.
Exit signs
9.5.3.5. (1) Each exit door, except for the main entrance to a building, dwelling unit or suite, shall have an exit sign when the exit serves
(a) a building exceeding two storeys in building height,
(b) a building having an occupant load greater than 150 persons, or
(c) a floor area other than a single dwelling unit with a fire escape as part of a means of egress.
(2) Where exit signs are not visible throughout the corridors and passageways, additional exit signs shall be installed in approved locations to indicate the direction of egress.
(3) Exit signs required in Sentences (1) and (2) shall have
(a) the word “EXIT” or the words “EXIT/SORTIE” in red letters on a contrasting background or white letters on a red background,
(b) letters with strokes at least 19 mm wide,
(c) letters at least 150 mm high when the signs are externally illuminated, and
(d) letters at least 114 mm high when the signs are internally illuminated.
Interior finishes
9.5.3.6. (1) Flame-spread ratings of interior wall and ceiling finishes within a means of egress shall not exceed 150.
(2) Despite Sentence (1), existing interior wall and ceiling finishes within an access to exit may be approved if, in the opinion of the Chief Fire Official, they will provide protection for life safety similar to the protection provided by compliance with Sentence (1).
Fire escapes
9.5.3.7. (1) Each fire escape used as an exit shall be in accordance with Articles 3.4.7.2., 3.4.7.3., 3.4.7.5. and 3.4.7.6. of the 1990 Building Code.
(2) Where a fire escape serves any storey above the second floor, doorway openings located within 3 m horizontally of, 3 storeys or 10 m below, or 1.8 m above, any balcony, platform or stairway of the fire escape, shall be protected by
(a) closures having a 20-min fire-protection rating and equipped with self-closing devices, or
(b) existing closures consisting of 45 mm (1 ¾-in) solid core wood doors installed in solid wood frames and equipped with self-closing devices.
Lighting
9.5.3.8. Public corridors and stairways that form part of a means of egress shall be adequately illuminated to allow for the safe evacuation of occupants.
Emergency lighting
9.5.3.9. (1) Emergency lighting shall be provided in exit stairways, public corridors and other principal access to exits where the occupant load in a building exceeds twenty-four persons or there are more than ten dwelling units.
(2) Emergency lighting required in Sentence (1) shall be
(a) designed to provide illumination for a duration of at least 30 min,
(b) supplied by a source of energy separate from the primary electrical supply for the building, and
(c) designed to be automatically actuated when the power to the building is interrupted.
(3) Illumination from emergency lighting shall be an average of at least 10 lx at floor or tread level, or 1 watt/m2 of floor space.
Subsection 9.5.4.Fire Alarm and Detection
Fire alarm requirements
9.5.4.1. (1) A fire alarm system shall be installed in accordance with Articles 3.2.4.2. to 3.2.4.6., 3.2.4.8., 3.2.4.9. and 3.2.4.17. and Sentences 3.2.7.8.(1) to (4) of the 1990 Building Code, where
(a) the building is greater than three storeys in building height, or
(b) sleeping accommodation is provided for more than ten persons.
(2) A building not greater than three storeys in building height that contains not more than ten dwelling units and provides sleeping accommodation for not more than twenty-four persons shall be deemed to be in compliance with Sentence (1) where the building is equipped with
(a) smoke alarms in accordance with Article 9.5.4.4., installed and interconnected so that the actuation of any smoke alarm will sound a similar signal in each of the interconnected devices, and
(b) a manual pull station at each exterior exit door for the actuation of the smoke alarms in Clause (a).
(3) A building shall be deemed to be in compliance with Sentence (1) where
(a) each exit and public corridor is shared by not more than four dwelling units or not more than ten persons in boarding, lodging, rooming or dormitory accommodation, or
(b) each dwelling unit and suite has direct access to outdoors by a door near ground level.
Non-electric fire alarm systems
9.5.4.2. (1) Existing manually operated, non-electric alarm systems employing mechanical gongs shall be deemed to be in compliance with Sentence 9.5.4.1.(1), where
(a) the building is not more than 2 storeys in building height,
(b) not more than 2 manual fire alarm stations are required in the building, and
(c) each gong is audible in every location in the building.
Automatic detection
9.5.4.3. (1) Automatic detection devices referred to in Sentences (2) and (3) shall be installed and connected to the fire alarm system required in Sentence 9.5.4.1.(1).
(2) Fire detectors shall be installed in storage rooms, locker rooms, service rooms, machinery rooms, heating rooms, incinerator rooms, linen and refuse chute intake compartments, janitors’ closets and refuse storage rooms, at the tops of elevator shafts and in any room or area where hazardous or combustible materials may be used or stored.
(3) Rooms or areas that are sprinklered in accordance with Article 3.2.4.16. of the 1990 Building Code shall be deemed to be in compliance with Sentence (2).
Interconnected smoke alarms
9.5.4.4. (1) Interconnected smoke alarms required in Sentence 9.5.4.1.(2), Subclause 9.5.2.2.(3)(b)(i) or Clause 9.5.2.8.(5)(b) shall be
(a) installed on or near the ceiling in public corridors of each floor area, adjacent to each stairway serving the public corridor and on or near the ceiling in the basement, adjacent to each stairway,
(b) audible throughout the suites,
(c) connected to an electrical circuit with no disconnect switch between the overcurrent device and the smoke alarms, and
(d) listed for use in an interconnected installation.
Smoke alarms
9.5.4.5. (1) Smoke alarms shall be installed in each dwelling unit and in each sleeping room not within a dwelling unit in accordance with Article 3.2.4.21. of the 1990 Building Code.
(2) Battery operated smoke alarms shall be deemed to be in compliance with Sentence 3.2.4.21.(4) of the 1990 Building Code.
(3) Smoke alarms required in Sentence (1) shall be in accordance with CAN/ULC-S531, “Smoke Alarms”, and CAN/ULC-S553, “Installation of Smoke Alarms”.
(4) Existing smoke alarms meeting the requirements of ULC-S531-1978, “Smoke Alarms”, shall be deemed to be in compliance with Sentence (3).
Existing fire alarm systems
9.5.4.6. Despite Articles 9.5.4.1. to9.5.4.4., where the performance and reliability of an existing fire alarm system will provide an adequate early warning level, the existing system may remain, be modified or be extended, if compatibility of the components is maintained and the system is approved.
Subsection 9.5.5.Suppression
Access for fire fighting
9.5.5.1. (1) Access routes for fire fighting shall be provided in accordance with the requirements of Articles 3.2.5.5. to 3.2.5.7. of the 1990 Building Code.
(2) Sentence (1) does not apply where the building is sprinklered.
Standpipe systems
9.5.5.2. (1) A standpipe and hose system in accordance with Articles 3.2.9.1. to 3.2.9.7. of the 1990 Building Code shall be installed in buildings more than four storeys in building height where the fifth or sixth storey is used for a residential occupancy.
(2) A wet or dry standpipe system shall be deemed to be in compliance with Sentence (1) where it includes
(a) a 50 mm riser and 50 mm extensions,
(b) capped 38 mm hose valves located so that any point on the floor area may be reached by 30 m of hose plus 3 m of hose stream from at least one hose valve,
(c) a fire department connection in accordance with Sentences 3.2.9.5.(2) to (9) of the 1990 Building Code, and
(d) a water supply in accordance with Sentences 3.2.9.3.(1) to (3) of the 1990 Building Code.
(3) Despite Sentences (1) and (2), existing standpipe systems and water supplies may be used if the systems or measures will provide sufficient fire suppression capability in the circumstances and if the systems or measures are approved.
Sprinkler systems
9.5.5.3. (1) Where a building or portion thereof is required to be sprinklered, the sprinkler system shall be designed and constructed in accordance with Articles 3.2.5.13. to 3.2.5.16. of the 1990 Building Code.
(2) Existing sprinkler systems shall be deemed to be in compliance with Sentence (1) if the average sprinkler discharge density over the design area is at least equal to the minimum density corresponding to the area for light hazard classification as defined in NFPA 13, “Installation of Sprinkler Systems”, or NFPA 13R, “Installation of Sprinkler Systems in Residential Occupancies Up to and Including Four Stories in Height”, whichever is applicable.
(3) Despite Sentences (1) and (2), existing sprinkler systems providing adequate protection that will control or extinguish fire and that are approved may be used.
SECTION 9.6BUILDINGS HIGHER THAN SIX STOREYS IN BUILDING HEIGHT WITH RESIDENTIAL OCCUPANCIES
Subsection 9.6.1.Application
Application
9.6.1.1. (1) This Section applies to buildings higher than six storeys in building height with residential occupancies and containing
(a) more than two dwelling units,
(b) sleeping accommodation for more than ten persons in one or more dormitories, or
(c) boarding, lodging or rooming accommodation for more than ten persons.
(2) Despite Sentence (1), if the building contains other occupancies, this Section does not apply to the fire safety systems, devices and structural elements of the other occupancies that do not affect the life safety of the residential occupancy.
(3) If a building contains areas that are governed by this Section and by another Section in this Part, the fire safety systems, devices and structural elements applicable to those areas shall comply with the requirements of this Section and the other Section that provide the greatest protection for life safety.
(4) For the purposes of this Section,
(a) “1990 Building Code” means Ontario Regulation 413/90, as it read on October 9, 1992, and
(b) “existing” means in existence on October 9, 1992.
Exemptions
9.6.1.2. Convents and monasteries are exempt from this Section.
9.6.1.3. This Section does not apply to a building or part of a building regulated by Section 9.9.
Subsection 9.6.2.Containment
Construction
9.6.2.1. (1) Existing buildings shall comply with Articles 9.6.2.2. and 9.6.2.3.
(2) Fire separations required by this Section to have a fire-resistance rating shall be in accordance with Subsection 3.1.7. and Articles 3.1.8.1., 3.1.8.3. and 3.5.4.2. of the 1990 Building Code.
(3) Where a 1-hr or less fire-resistance rating is required, existing wall assemblies, floor assemblies and their supporting assemblies consisting of
(a) reinforced concrete,
(b) masonry, or
(c) clay tile with plaster or gypsum board finish on both sides
shall be deemed to be in compliance with Sentence (2).
(4) Where a 45-min or less fire-resistance rating is required, existing wall assemblies, floor assemblies, ceilings and their supporting assemblies, consisting of membranes of lath and plaster or gypsum board shall be deemed to be in compliance with Sentence (2).
Floor assemblies
9.6.2.2. (1) Floor assemblies shall be fire separations having a 1-hr fire-resistance rating.
(2) Walls, columns and arches supporting floor assemblies shall have a 1-hr fire-resistance rating.
(3) Sentences (1) and (2) do not apply to floor assemblies between different levels of the same multi-level dwelling unit.
Combustible construction
9.6.2.3. (1) Buildings of combustible construction shall be sprinklered.
(2) Where only the roof assembly is of combustible construction, the building shall be deemed to be in compliance with Sentence (1) where
(a) the ceiling membrane has a 45-min fire-resistance rating and the attic space is fire stopped in accordance with Article 3.1.11.5. of the 1990 Building Code,
(b) the roof assembly is of heavy timber construction in accordance with Article 3.1.4.6. of the 1990 Building Code, or
(c) the top storey and attic space are sprinklered.
Fire separations between occupancies
9.6.2.4. (1) Fire separations having a 1-hr fire-resistance rating shall be provided between residential occupancies and other major occupancies.
(2) Existing fire separations having a 30-min fire-resistance rating shall be deemed to be in compliance with Sentence (1) where the other major occupancy is sprinklered.
Fire separations between dwelling units and corridors
9.6.2.5. (1) Each dwelling unit and sleeping room not within a dwelling unit shall be separated from adjacent rooms and areas by a fire separation having a 45-min fire-resistance rating.
(2) Public corridors shall be separated from adjacent rooms and areas by a fire separation having a 45-min fire-resistance rating.
(3) Existing fire separations having less than a 45-min fire-resistance rating shall be deemed to be in compliance with Sentences (1) and (2) where the floor area is sprinklered.
(4) Existing fire separations having a 30-min fire-resistance rating shall be deemed to be in compliance with Sentences (1) and (2) where smoke detectors are installed in public corridors.
Protection of openings in fire separations
9.6.2.6. (1) Closures in fire separations shall be in accordance with Sentences 3.1.8.4.(2), 3.1.8.10.(1) and 3.1.8.11.(1) and Articles 3.1.8.13. and 3.3.4.5. of the 1990 Building Code.
(2) Openings in fire separations having a 30-min fire-resistance rating shall be protected with closures having a 20-min fire-protection rating.
Doors and screens
(3) Where a l ½-hr fire-protection rating is required, existing closures consisting of hollow metal or kalamein doors in hollow metal frames, with openings, if any, protected by wired glass panels not exceeding 645 cm2, and equipped with self-closing and latching devices shall be deemed to be in compliance with Sentence (1).
(4) Where a 1-hr or 45-min fire-protection rating is required, existing closures consisting of
(a) hollow metal or kalamein doors in hollow metal frames, with openings, if any, protected by wired glass, and equipped with self-closing and latching devices, or
(b) wired glass screens set in fixed steel frames shall be deemed to be in compliance with Sentence (1).
(5) Where a 20-min fire-protection rating is required, or in a fire separation required under Article 9.6.2.5., existing closures consisting of 45 mm (1 ¾ in) solid core wood doors installed in solid wood or hollow metal frames and equipped with self-closing and latching devices shall be deemed to be in compliance with Sentences (1) and (2).
(6) Where the floor area is sprinklered, existing closures in fire separations to which Article 9.6.2.5. applies shall be deemed to be in compliance with Sentence (2) and Sentences 3.1.8.4.(2) and 3.1.8.10.(1) of the 1990 Building Code.
(7) Despite Sentence (1), garbage intake room doors that swing inward shall be acceptable without a latching device.
(8) Existing operable transoms and glass lights shall be fixed shut and shall meet the fire-protection rating requirements of Sentences (1) and (2).
(9) Despite Sentences (1) and (2), fire dampers or fire-stop flaps are not required in existing noncombustible ducts at penetrations of fire separations.
Storage rooms
9.6.2.7. (1) Storage rooms for the use of occupants, not contained within a dwelling unit or suite, shall be
(a) separated from the remainder of the building by a fire separation having a 1-hr fire-resistance rating, and
(b) sprinklered in accordance with Article 9.6.5.5.
(2) Despite Clause (1)(b), existing sprinkler systems or alternate fire protection systems that will control or extinguish fire and that are approved may be used.
Fuel-fired appliance service rooms
9.6.2.8. (1) Fuel-fired appliances shall be enclosed in a service room separated from the remainder of the building by a fire separation having a 1-hr fire-resistance rating.
(2) Sentence (1) does not apply to fireplaces within a dwelling unit or suite.
Incinerator rooms
9.6.2.9. (1) Incinerator rooms shall be separated from the remainder of the building by a fire separation having a 2-hr fire-resistance rating.
(2) A fire separation having a 1-hr fire-resistance rating shall be deemed to be in compliance with Sentence (1) where the incinerator room is sprinklered.
Combustion air
9.6.2.10. Where a service room is separated in accordance with Article 9.6.2.8., sufficient combustion air shall be brought directly from the outside for the proper combustion and safe operation of the appliances.
Refuse storage rooms
9.6.2.11. (1) Refuse storage rooms shall be
(a) separated from the remainder of the building by a fire separation having a 1-hr fire-resistance rating, and
(b) sprinklered to provide a minimum average density of 6.5 L/min/m2 over the room area.
Vertical service spaces
9.6.2.12. (1) Vertical service spaces shall be separated from the remainder of the building by a fire separation having a 45-min fire-resistance rating.
(2) Where openings in the vertical service space, including the top and bottom, are sealed with noncombustible materials having the same fire-resistance rating as the existing construction, the vertical service space shall be deemed to be in compliance with Sentence (1).
Refuse and linen chutes
9.6.2.13. (1) Each room into which a linen or refuse chute discharges shall be separated from the remainder of the building by a fire separation having a 1-hr fire-resistance rating.
(2) Automatic sprinklers shall be installed in each linen or refuse chute
(a) at the top,
(b) at alternate floor levels, and
(c) in the room or bin into which the chute discharges.
(3) An existing chute installation shall be deemed to be in compliance with Sentence (2) where
(a) the chute outlet in the discharge room is protected by an automatic, self-latching closure held open by a fusible link,
(b) the room into which the chute discharges is sprinklered, and
(c) at least one sprinkler head with a minimum discharge rate of 66 L/min is located at the top of the chute.
Transformer vaults
9.6.2.14. Transformer vaults to which the Electricity Act, 1998 applies shall be separated from the remainder of the building by a fire separation having a 2-hr fire-resistance rating and shall be provided with heat detectors connected to the fire alarm system.
Storage garages
9.6.2.15. (1) A storage garage shall be separated from the remainder of the building by a fire separation having a 1 ½-hr fire-resistance rating.
(2) Underground storage garages shall be sprinklered.
(3) Where an underground storage garage is equipped with heat detectors connected to the fire alarm system and vestibules are located at points of access to the residential occupancy, the garage shall be deemed to be in compliance with Sentence (2).
Smoke control measures
9.6.2.16. (1) Buildings where the vertical distance between the floor of the top storey and grade exceeds 18 m shall have smoke control measures in accordance with Article 3.2.6.2. of the 1990 Building Code.
(2) Buildings shall be deemed to be in compliance with Sentence (1) where
(a) all dwelling units have access to an exterior balcony,
(b) the length of public corridors does not exceed 30 m between exits,
(c) public corridors on each floor area are equipped with smoke detectors connected to the fire alarm system,
(d) public corridors on each floor area are subdivided in accordance with Sentence (3), or
(e) the building is fully sprinklered.
(3) The public corridor subdivision referred to in Clause (2)(d) shall
(a) separate the corridor into at least two compartments by a fire separation,
(b) be located so that no more than one of the required exit stairs is located in any one compartment and the distance of travel from any suite entrance door to an exit or adjacent compartment does not exceed 25 m, and
(c) include smoke tight doors equipped with self-closing devices that act as closures in the fire separation.
Subsection 9.6.3.Means of Egress
Access to exits
9.6.3.1. (1) Each dwelling unit or suite in a floor area shall have a doorway leading to
(a) the outside at or near grade,
(b) an outside passageway where it is possible to go in opposite directions to separate exits, or
(c) a public corridor where it is possible to go in opposite directions to separate exits.
Dead end corridors
(2) Access to exits through a dead end public corridor shall be deemed to be in compliance with Clause (1)(c) where the distance of travel, measured from any door along the corridor to a point where a choice of two directions of exit travel is available, does not exceed 6 m plus the width of the corridor.
(3) Existing dead end public corridors shall be deemed to be in compliance with Sentence (2) where additional fire protection measures are approved that, in the opinion of the Chief Fire Official, will provide protection for life safety similar to the protection provided by compliance with Sentence (2).
(4) Despite Sentence (1), a doorway from a dwelling unit or suite may open onto
(a) an exit stairway,
(b) a public corridor served by a single exit, or
(c) an outside passageway served by a single exit stairway
if the dwelling unit or suite has access to a second and separate exit.
Number of exits
9.6.3.2. (1) Each floor area shall be served by a minimum of two exits.
(2) The minimum distance between exits shall be 9 m or half the maximum diagonal dimension of the floor area, whichever is less.
Travel distance
9.6.3.3. (1) The travel distance to at least one exit shall not exceed
(a) 30 m in a floor area that is not sprinklered, or
(b) 45 m in a sprinklered floor area.
Stairway separations
9.6.3.4. (1) Each exit stairway shall be separated from the remainder of the building by a fire separation having a 1-hr fire-resistance rating.
(2) Closures in stairway fire separations shall be in accordance with Article 9.6.2.6.
Door swing
9.6.3.5. Each exit door, except those serving a single dwelling unit, shall open in the direction of exit travel and swing on its vertical axis.
Exit signs
9.6.3.6. (1) Exit signs shall be installed in accordance with Subsection 3.4.5. of the 1990 Building Code.
(2) Each door opening into an exit stairway from a public corridor shall be identified on the stairway side with the number assigned to that floor in accordance with Article 3.4.6.17. of the 1990 Building Code.
Interior finishes
9.6.3.7. (1) Flame-spread ratings of interior wall and ceiling finishes within a means of egress shall be in accordance with Article 3.1.13.7. of the 1990 Building Code.
(2) Despite Sentence (1), existing interior wall and ceiling finishes within an access to exit may be approved if, in the opinion of the Chief Fire Official, they will provide protection for life safety similar to the protection provided by compliance with Sentence (1).
Lighting
9.6.3.8. Public corridors and stairways that form part of a means of egress shall be adequately illuminated to allow for the safe evacuation of occupants.
Emergency lighting
9.6.3.9. (1) Emergency lighting shall be provided in exit stairways, public corridors and other principal access to exits.
(2) Emergency lighting required in Sentence (1) shall be
(a) designed to provide illumination for a duration of at least
(i) 2 hr in buildings whose highest floor level is more than 18 m above grade, and
(ii) 30 min in buildings whose highest floor level is not more than 18 m above grade,
(b) supplied by a source of energy separate from the primary electrical supply for the building, and
(c) designed to be automatically actuated when the power to the building is interrupted.
(3) Illumination from emergency lighting shall be an average of at least 10 lx at floor or tread level, or 1 watt/m2 of floor space.
Subsection 9.6.4.Fire Alarm and Detection
Fire alarm requirements
9.6.4.1. (1) A fire alarm and detection system shall be installed in each building in accordance with Articles 3.2.4.1. to 3.2.4.14., 3.2.4.16. to 3.2.4.20., 3.2.4.22. and 3.2.7.8. of the 1990 Building Code.
(2) An existing fire alarm system shall be deemed to be in compliance with Sentence (1) where the system
(a) complies with Articles 9.6.4.2. to 9.6.4.9., and
(b) operates in accordance with Article 3.2.4.4. of the 1990 Building Code.
Automatic detection
9.6.4.2. (1) Automatic detection devices referred to in Sentences (2) and (3) shall be installed and connected to the fire alarm system required in Sentence 9.6.4.1.(2).
(2) Fire detectors shall be installed in storage rooms, locker rooms, service rooms, machinery rooms, heating rooms, incinerator rooms, linen and refuse chute intake compartments, janitors’ closets and refuse storage rooms, at the tops of elevator shafts and exit stair shafts, and in any room or area where hazardous or combustible materials may be used or stored.
(3) Rooms or areas that are sprinklered in accordance with Article 3.2.4.16. of the 1990 Building Code shall be deemed to be in compliance with Sentence (2).
Manual pull stations
9.6.4.3. Manual pull stations shall be provided in accordance with Article 3.2.4.17. of the 1990 Building Code.
Electrical supervision
9.6.4.4. (1) The fire alarm system shall be electrically supervised.
(2) Despite Sentence (1), electrical supervision of the bell circuits is not required where bells operate on more than one circuit on each floor.
Annunciator panels
9.6.4.5. (1) An annunciator panel shall
(a) be located at the main street entrance to the building or a location that is accessible to the fire department and that is approved, and
(b) indicate all floors with not more than one floor per zone indicated.
(2) Despite Clause (1)(b), existing annunciator zone indication that is compatible with the fire safety plan required under Subsection 2.8.2. and that is approved may be used.
Signals to the fire department
9.6.4.6. Fire alarm systems in buildings where the vertical distance between the floor of the top storey and grade exceeds 18 m shall have provision for notifying the fire department in accordance with Sentences 3.2.4.7.(1) to (4) of the 1990 Building Code that a fire alarm signal or alert signal has been initiated.
Voice communication systems
9.6.4.7. (1) A voice communication system shall be provided where the vertical distance between the floor of the top storey and grade exceeds 36 m.
(2) The voice communication system required by Sentence (1) shall
(a) consist of loudspeakers operated from the central alarm and control facility or other location that is accessible to the fire department and supervisory staff required under Subsection 2.8.2. and that is approved,
(b) provide a clear verbal signal throughout the building, except for within elevator cars, and
(c) provide for automatic silencing of the fire alarm devices when the loudspeakers are in use.
(3) Approved existing public address systems compatible with the fire safety plan required under Subsection 2.8.2. and capable of communicating instructions to the building occupants shall be deemed to be in compliance with Sentences (1) and (2).
Emergency power
9.6.4.8. Fire alarm and voice communication systems shall be provided with an electrically supervised emergency power supply in accordance with Article 3.2.7.8. of the 1990 Building Code.
Shutdown of air handling systems
9.6.4.9. Recirculating air handling systems that serve more than one dwelling unit, suite or storey shall be equipped with a duct-type smoke detector that will automatically shut down the system upon actuation of the smoke detector.
Smoke alarms
9.6.4.10. (1) Smoke alarms shall be installed in each dwelling unit and in each sleeping room not within a dwelling unit in accordance with Article 3.2.4.21. of the 1990 Building Code.
(2) Battery operated smoke alarms shall be deemed to be in compliance with Sentence 3.2.4.21.(4) of the 1990 Building Code.
(3) Smoke alarms required in Sentence (1) shall be in accordance with CAN/ULC-S531, “Smoke Alarms”, and CAN/ULC-S553, “Installation of Smoke Alarms”.
(4) Existingsmoke alarms meeting the requirements of ULC-S531-1978, “Smoke Alarms”, shall be deemed to be in compliance with Sentence (3).
Subsection 9.6.5.Suppression
Access for fire fighting
9.6.5.1. (1) Access routes for fire fighting shall be provided in accordance with Articles 3.2.5.5. to 3.2.5.7. of the 1990 Building Code.
(2) Sentence (1) does not apply where the building is sprinklered.
Standpipe systems
9.6.5.2. (1) A standpipe and hose system in accordance with Subsection 3.2.9. of the 1990 Building Code shall be installed in each building.
(2) A wet or dry standpipe system shall be deemed to be in compliance with Sentence (1) where the system includes
(a) a minimum 150 mm diameter riser located in each stairwell, with 38 mm and 65 mm capped fire hose valves at each storey,
(b) capped 38 mm fire hose valves located in the public corridor so that any point on a floor area may be reached by 30 m of hose plus 3 m of hose stream from at least one hose valve,
(c) flow rates as required by Clauses 3.2.9.3.(4)(b) and (c) of the 1990 Building Code for buildings less than 84 m in height, measured between grade and the ceiling level of the top storey,
(d) flow rates as required by Clause 3.2.9.3.(5)(b) of the 1990 Building Code for buildings 84 m or more in height, measured between grade and the ceiling level of the top storey, and
(e) a water supply in accordance with Sentences 3.2.9.3.(1) and (2) of the 1990 Building Code.
(3) An existing standpipe and hose system capable of delivering a minimum flow rate of 265 L/min for at least 30 minutes at a minimum discharge pressure of 345 kPa (gauge) at the two highest and most remote hose valves shall be deemed to be in compliance with Clauses (2) (a), (c), (d) and (e) if not less than 132 L/min can be supplied from each of the two outlets simultaneously.
(4) Emergency power shall be provided for a standpipe system that is designed with at least one pressure zone located above another, such that the water supply for the booster pump in the upper zone must be supplied from the pump in the zone below.
Fire department connections
9.6.5.3. (1) A fire department connection in accordance with Sentences 3.2.9.5.(2) to (9) of the 1990 Building Code shall be provided.
(2) Despite Sentence (1), a fire department connection is not required where a booster pump equipped with emergency power is provided.
(3) Despite Sentence (1), existing fire department connections that are visible and accessible to the fire department and that are approved may be used.
Hydrants
9.6.5.4. (1) Hydrants shall be located within 90 m of the building face on which the principal entrance is located.
(2) A hydrant located within 45 m of a fire department connection, as required by Sentence 9.6.5.3.(1), shall be deemed to be in compliance with Sentence (1).
(3) Despite Sentence (1), existing hydrant locations that provide sufficient fire suppression capability in the circumstances and that are approved may be used.
Sprinkler systems
9.6.5.5. (1) Where a building or portion thereof is required to be sprinklered, the sprinkler system shall be designed and constructed in accordance with Articles 3.2.5.13. to 3.2.5.16. of the 1990 Building Code.
(2) Existingsprinkler systems in which the average sprinkler discharge density over the design area is at least equal to the minimum density corresponding to the area for light hazard classification as defined in NFPA 13, “Installation of Sprinkler Systems”, shall be deemed to be in compliance with Sentence (1).
Firefighters’ elevators
9.6.5.6. (1) At least one elevator shall be provided for use by firefighters in accordance with Articles 3.2.6.8. and 3.2.6.9. of the 1990 Building Code in buildings where the vertical distance between the floor of the top storey and grade exceeds 18 m.
(2) An elevator shall be deemed to be in compliance with Sentence (1) where
(a) the elevator is capable of providing transportation from the street floor to every floor served by the elevator system,
(b) the elevator is identified on the street floor as an elevator provided for use by firefighters,
(c) the elevator satisfies the requirements of Sentences 3.2.6.8.(1) to (4) of the 1990 Building Code, and
(d) other elevator cabs in the same shaft as the elevator for use by firefighters satisfy the requirements of Sentences 3.2.6.8.(1) and (2) of the 1990 Building Code.
(3) An elevator system that requires transfer from one elevator to another to reach all floors above grade shall be deemed to be in compliance with Sentence (1) where
(a) the elevators are identified on the street floor and the transfer floor as elevators provided for firefighters’ use,
(b) the elevators satisfy the requirements of Sentences 3.2.6.8.(1) to (4) of the 1990 Building Code,
(c) emergency power is provided capable of operating one elevator car at a time, in buildings where the vertical distance between the floor of the top storey and grade exceeds 36 m, and
(d) other elevator cabs in the same shaft as the elevator for use by firefighters satisfy the requirements of Sentences 3.2.6.8.(1) and (2) of the 1990 Building Code.
Emergency power supply
9.6.5.7. (1) Emergency electric power provided for
(a) fire alarm and detection systems referred to in Sentence 9.6.4.1.(1) and Article 9.6.4.8.,
(b) booster pumps serving standpipe systems referred to in Sentences 9.6.5.2.(4) and 9.6.5.3.(2), and
(c) elevators referred to in Clause 9.6.5.6.(3)(c)
shall be installed in accordance with Articles 3.2.7.5. and 3.2.7.8. of the 1990 Building Code.
(2) Despite Sentence (1), existing emergency electric power generators that will provide reliable and sufficient electric power and that are approved may be used.
SECTION 9.7RESERVED
SECTION 9.8TWO UNIT RESIDENTIAL OCCUPANCIES
Subsection 9.8.1.Application
Application
9.8.1.1. (1) This Section applies to a detached house, semi-detached house or row house containing 2 existing dwelling units, where
(a) the building is 3 storeys or less in building height,
(b) the building area does not exceed 600 m2, and
(c) one dwelling unit or a portion of a dwelling unit is situated above another dwelling unit, or two dwelling units side by side share a common interior means of escape.
(2) For the purposes of this Section,
(a) “1994 Building Code” means Regulation 61 of the Revised Regulations of Ontario, 1990, as it read on July 14, 1994,
(b) “dwelling unit” means a room or suite of rooms operated as a housekeeping unit that is used as a domicile by one or more persons, and that contains cooking, eating, living, sleeping and sanitary facilities,
(c) “existing” means in existence on July 14, 1994,
(d) “row house” means a residential structure which
(i) is one of a group of three or more horizontally attached residential structures, and
(ii) is separated vertically from one or two of the other structures by common walls which do not provide for internal access from the living space in one structure to another, and
(e) “semi-detached house” means a residential structure which
(i) is one of two horizontally attached residential structures, and
(ii) is separated vertically from the other residential structure by a common wall which does not provide for internal access from the living space in one structure to the other.
Subsection 9.8.2.Containment
General requirements for fire separations
9.8.2.1. (1) Fire separations required to have a fire-resistance rating by this Section shall comply with Article 9.10.3.1. of the 1994 Building Code or the corresponding compliance alternatives in Part 11 of the 1994 Building Code.
(2) Except as permitted in Article 9.8.2.5., a wall or floor assembly required to be a fire separation shall be constructed as a continuous barrier against the spread of fire.
(3) Where a 30-min fire-resistance rating is required, existing wall assemblies and floor assemblies consisting of membranes of lath and plaster or gypsum board shall be deemed to be in compliance with Sentence (1).
(4) Where a 15-min fire-resistance rating is required, existing wall assemblies and floor assemblies consisting of membranes of plaster board with a plaster skim coat shall be deemed to be in compliance with Sentence (1).
Fire separations between dwelling units
9.8.2.2. (1) Except as permitted in Article 9.8.2.3., each dwelling unit shall be separated from other rooms and areas by a fire separation having a 30-min fire-resistance rating conforming to Article 9.8.2.1. or shall comply with Sentence (2) or (3) of this Article.
(2) Except as permitted in Article 9.8.2.3., each dwelling unit shall be separated from other rooms and areas by a fire separationhaving a 15-min fire-resistance rating conforming to Article 9.8.2.1. and be equipped with interconnected smoke alarms conforming to Article 9.8.4.1.
Existing fire separations with sprinklers
(3) Existing fire separations shall be deemed to be in compliance with Sentence (1) where the detached house, semi-detached house, or row house is sprinklered in accordance with Article 9.8.5.1.
Alternative protection for ceilings
9.8.2.3. The fire-resistance rating of the fire separation above a room containing a fuel-fired appliance is not required where the room is sprinklered, providing a minimum average density of 6.5 L/min/m2 over the room area.
Combustion air
9.8.2.4. Where a room containing a fuel-fired appliance is enclosed to satisfy other provisions of this Section in a manner that restricts the supply of combustion air, sufficient combustion air shall be brought directly from the outside for the proper combustion and safe operation of the appliance.
Protection of openings in fire separations
9.8.2.5. (1) Openings in fire separations required by Sentences 9.8.2.2.(1) and (2) and 9.8.3.3.(1) shall be protected with closures conforming to Articles 9.10.13.2. and 9.10.13.10. of the 1994 Building Code.
(2) Despite Sentence (1), existing 45 mm solid core wood, hollow metal or kalamein doors equipped with self-closing devices, installed in hollow metal or solid wood frames, are acceptable.
(3) Despite Sentence (1), fire dampers or fire-stop flaps are not required in ducts at penetrations of a fire separation.
Subsection 9.8.3.Means of Egress
Requirements for means of escape
9.8.3.1. Each dwelling unit shall be provided with a means of escape conforming to Article 9.8.3.2., 9.8.3.3., 9.8.3.4. or 9.8.3.5.
One means of escape
9.8.3.2. (1) Each dwelling unit shall be served by at least one means of escape consisting of a door that
(a) serves only that dwelling unit,
(b) opens directly to the exterior from that dwelling unit, and
(c) has direct access to ground level.
9.8.3.3. (1) Each dwelling unit shall have direct access to at least one means of escape that may be shared if
(a) the means of escape is separated from the remainder of the building by a fire separation having a 30-min fire-resistance rating,
(b) the flame-spread rating of interior wall and ceiling finishes within the means of escape does not exceed 150, and
(c) the means of escape does not involve entering another dwelling unit or other occupancy and leads directly to the exterior with direct access to ground level.
(2) Where a means of escape provided by Sentence (1) serves a dwelling unit situated entirely on the third storey, the detached house, semi-detached house or row house shall be equipped with interconnected smoke alarms conforming to Article 9.8.4.1.
Two means of escape
9.8.3.4. (1) Each dwelling unit shall be served by at least two means of escape arranged in such a manner that
(a) one means of escape shall be through a door which may lead through another dwelling unit, and
(b) the second means of escape shall be through a window if,
(i) the window conforms to Sentence (2) or (3), and
(ii) the detached house, semi-detached house or row house is equipped with interconnected smoke alarms conforming to Article 9.8.4.1.
(2) A window may serve as a second means of escape if
(a) the sill is not more than 1 m above or below the adjacent ground level,
(b) the window can be opened from the inside without the use of tools,
(c) the window has an individual, unobstructed open portion having a minimum area of 0.38 m2 with no dimension less than 460 mm,
(d) the sill height does not exceed 900 mm above the floor or fixed steps,
(e) where the window has a window-well, a clearance of at least 1 m is provided in the window-well in front of the window, and
(f) where the window has a window-well, the window opens into the dwelling unit and does not interfere with escape.
(3) A window may serve as a second means of escape if
(a) the window is of a casement type,
(b) the window is not less than 1060 mm high and 560 mm wide,
(c) the sill of the window is not more than 900 mm above the inside floor, and
(d) the sill of the window is not less than 1 m and not more than 5 m above the adjacent ground level.
Existing means of escape with sprinklers
9.8.3.5. An existing means of escape, not conforming to Article 9.8.3.2., 9.8.3.3. or 9.8.3.4., is acceptable if the detached house, semi-detached house or row house is sprinklered in accordance with Article 9.8.5.1.
Subsection 9.8.4.Fire Alarm and Detection
Interconnected smoke alarms
9.8.4.1. (1) Interconnected smoke alarms required in Sentences 9.8.2.2.(2) and 9.8.3.3.(2) and Clause 9.8.3.4.(1)(b) shall be installed on or near the ceiling in each
(a) storey within a dwelling unit, including every basement, and
(b) shared means of escape.
(2) Smoke alarms referred to in Sentence (1) shall be
(a) electrically interconnected so that the activation of any smoke alarm will sound a similar signal in each of the interconnected devices,
(b) installed in accordance with the manufacturers’ instructions, and on floor levels containing bedrooms or sleeping areas, the required smoke alarms shall be installed between such bedrooms and the remainder of the dwelling unit, such as in a hallway or corridor serving such rooms or areas,
(c) connected to an electrical circuit with no disconnect switch between the overcurrent device and the smoke alarms,
(d) listed for use in an interconnected installation, and
(e) audible in bedrooms when the intervening doors are closed.
Smoke alarms
9.8.4.2. (1) Smoke alarms shall be installed in each dwelling unit in accordance with Sentences 3.2.4.21.(1) to (4) of the 1994 Building Code.
(2) Battery operated smoke alarms shall be deemed to be in compliance with Sentence 3.2.4.21.(4) of the 1994 Building Code.
(3) Smoke alarms required in Sentence 9.8.4.2.(1) shall be designed in conformance with CAN/ULC-S531, “Smoke Alarms”, and installed in accordance with CAN/ULC-S553, “Installation of Smoke Alarms”.
(4) Existing smoke alarms meeting the requirements of ULC-S531-1978, “Smoke Alarms”, shall be deemed to be in compliance with Sentence (3).
(5) When interconnected smoke alarms are installed in accordance with Article 9.8.4.1., the smoke alarms referred to in Sentence (1) of this Article are not required.
Maintenance of smoke alarms
9.8.4.3. (1) All smoke alarms required by this Section shall be maintained in operating condition.
(2) This Article is revoked when Subsection 6.3.3. comes into force.
Subsection 9.8.5.Suppression
Sprinkler systems
9.8.5.1. Sprinkler protection required in this Section shall be designed and installed in conformance with NFPA 13D, “Installation of Sprinkler Systems in One- and Two-Family Dwellings and Manufactured Homes”.
Subsection 9.8.6.Electrical
Electrical inspections required
9.8.6.1. (1) Each detached house, semi-detached house and row house regulated by this Section shall be subjected to a general inspection by the Electrical Safety Authority, as defined in the Electricity Act, 1998 and inspection fees shall be paid by the owner.
(2) Electrical hazards identified during an inspection required by Sentence (1) shall be repaired in accordance with the Electrical Safety Code made under the Electricity Act, 1998.
(3) The letter of compliance from the Electrical Safety Authority, as defined in the Electricity Act, 1998 shall be made available to the Chief Fire Official upon request.
SECTION 9.9 HOTELS
Subsection 9.9.1. Application
Application
9.9.1.1. (1) Except as provided in Sentences (2), (3) and (4), this Section applies to every hotel establishment.
(2) Except as required in Sentence (5), this Section does not apply to a hotel establishment where every building that contains a hotel
(a) is not more than one storey in building height, and
(b) has a building area of 300 m2 or less.
(3) Except as required in Sentences (5) and (6), this Section does not apply to a building or part of a building that was regulated by Section 9.2, 9.3, 9.5 or 9.6 on December 31, 2006 if the use of the building is unchanged since that date.
(4) Except as required in Sentence (6), if the building contains major occupancies that operate under independent control from the hotel establishment, this Section does not apply to fire safety systems, devices and structural elements of those major occupancies that do not affect the life safety of the hotel occupants.
(5) Article 9.9.4.13. applies to a building or part of a building described in Sentence (2) or (3).
(6) Articles 9.9.2.9. and 9.9.2.15. apply to a building or part of a building described in Sentence (3) or (4).
(7) For the purposes of this Section,
(a) “1994 Building Code” means Regulation 61 of the Revised Regulations of Ontario, 1990, as it read on June 23, 1994, and
(b) “existing” means in existence on January 1, 2007.
Building audit
9.9.1.2. (1) A building audit shall be prepared and retained by the owner.
(2) The building audit referred to in Sentence (1) shall identify and describe the existing building features in relation to the requirements of this Section, including
(a) containment and control of a fire, including
(i) fire separations,
(ii) firewalls,
(iii) construction assemblies,
(iv) occupancy separations,
(v) interior finishes,
(vi) smoke control,
(vii) heating, ventilating and air-conditioning systems, and
(viii) commercial cooking equipment,
(b) detection, including
(i) alarm and detection systems,
(ii) smoke alarms, and
(iii) voice communication systems,
(c) suppression, including
(i) fire department access,
(ii) standpipe and hose systems,
(iii) sprinkler or special extinguishing systems, and
(iv) firefighters’ elevators, and
(d) egress, including
(i) the number, type, access to, direction to, lighting for and identification of exits,
(ii) fire escapes,
(iii) occupant load, and
(iv) emergency lighting.
Subsection 9.9.2. Containment
Construction
9.9.2.1. (1) Fire separations required by this Section to have a fire-resistance rating shall be in conformance with Subsection 3.1.7. and Articles 3.1.8.1., 3.1.8.2., 3.1.8.3. and 3.5.4.2. of the 1994 Building Code.
(2) Where a 2-hr or less fire-resistance rating is required, existing wall assemblies, floor assemblies and their supporting assemblies consisting of
(a) reinforced concrete,
(b) masonry, or
(c) clay tile with plaster or gypsum board finish on both sides
shall be deemed to be in compliance with Sentence (1).
(3) Where a 1-hr or less fire-resistance rating is required, existing wall assemblies, floor assemblies, ceilings and their supporting assemblies that consist of membranes of lath and plaster or gypsum board shall be deemed to be in compliance with Sentence (1).
(4) Heavy timber construction conforming to Article 3.1.4.6. of the 1994 Building Code shall be deemed to have a 45-min fire-resistance rating.
(5) Buildings with limited combustible components may be approved as noncombustible construction.
(6) Except as permitted in Sentences (7) and (8), floor assemblies shall be fire separations.
(7) Sentence (6) does not apply to floor assemblies between different levels of the same multi-level guest suite.
(8) A floor assembly immediately above a crawl space is not required to be constructed as a fire separation and is not required to have a fire-resistance rating provided the crawl space is not considered as a basement in Sentence 3.2.2.5.(1) of the 1994 Building Code.
Buildings up to three storeys
9.9.2.2. (1) Buildings shall comply with the requirements of Sentence (2), where the building is
(a) not more than one storey in building height and not greater than 1200 m² in building area,
(b) not more than two storeys in building height and not greater than 900 m² in building area, or
(c) not more than three storeys in building height and not greater than 600 m² in building area.
(2) Floor assemblies and walls, columns and arches supporting floor assemblies shall have a 30-min fire-resistance rating.
(3) Where sleeping accommodation or meeting rooms are not provided in the basement, an existing fire separation between the first storey and basement shall be deemed to be in compliance with Sentence (2) where
(a) the basement is sprinklered,
(b) the building contains not more than four guest suites and provides sleeping accommodation for not more than 10 persons, and
(i) interconnected smoke alarms are installed in conformance with Clause 9.9.4.1.(3)(c),
(ii) doors connecting the basement and first storey have a 20-min fire-protection rating and are equipped with self-closing and latching devices, and
(iii) fire stopping of the wall space at the basement level is in conformance with Article 9.10.15.3. of the 1994 Building Code, or
(c) the building is one storey in building height, not more than 600 m2 in building area, and
(i) each guest suite has direct access to the outdoors by a door near ground level,
(ii) doors connecting the basement and first storey have a 20-min fire-protection rating and are equipped with self-closing and latching devices,
(iii) fire stopping of the wall space at the basement level is in accordance with Article 9.10.15.3. of the 1994 Building Code, and
(iv) an approved early warning system is installed consisting of fire detectors in the basement interconnected with alarm signalling devices that are audible in all guest suites.
(4) The water supply for the sprinklers referred to in Clause (3)(a) may be taken from the domestic supply where the supply provides sufficient density for the largest fire compartment and where the supply is approved.
(5) A building that is sprinklered shall be deemed to be in compliance with Sentence (2).
Buildings up to four storeys
9.9.2.3. (1) Buildings to which Sentence 9.9.2.2.(1) does not apply and that are not more than four storeys in building height shall comply with Sentences (2) and (3).
(2) Floor assemblies and walls, columns and arches supporting floor assemblies shall have a 45-min fire-resistance rating.
(3) Smoke detectors shall be provided in corridors serving guest suites in buildings of combustible construction.
(4) A building that is sprinklered shall be deemed to be in compliance with Sentences (2) and (3).
Buildings over four storeys but not more than six storeys
9.9.2.4. (1) Buildings to which Articles 9.9.2.2. and 9.9.2.3. do not apply and that are not more than six storeys in building height shall
(a) have a 45-min fire-resistance rating for floor assemblies and walls, columns and arches supporting floor assemblies, and
(b) be sprinklered, where the building is of combustible construction.
(2) Where only the roof assembly is of combustible construction, the building shall be deemed to be in compliance with Clause (1)(b) where
(a) the ceiling membrane has a 45-min fire-resistance rating and the attic space is fire stopped in conformance with Article 3.1.11.5. of the 1994 Building Code,
(b) the roof assembly is of heavy timber construction in conformance with Article 3.1.4.6. of the 1994 Building Code, or
(c) the top storey and attic space are sprinklered.
(3) Where smoke detectors are provided in corridors serving guest suites, a building of heavy timber construction conforming to Article 3.1.4.6. of the 1994 Building Code shall be deemed to be in compliance with Sentence (1).
Buildings over six storeys
9.9.2.5. (1) Buildings that are more than six storeys in building height shall
(a) have a 1-hr fire-resistance rating for floor assemblies and walls, columns and arches supporting floor assemblies, and
(b) be sprinklered, where the building is of combustible construction.
(2) Where only the roof assembly is of combustible construction, the building shall be deemed to be in compliance with Clause (1)(b) where
(a) the ceiling membrane has a 45-min fire-resistance rating and the attic space is fire stopped in conformance with Article 3.1.11.5. of the 1994 Building Code,
(b) the roof assembly is of heavy timber construction in conformance with Article 3.1.4.6. of the 1994 Building Code, or
(c) the top storey and attic space are sprinklered.
Adjacent buildings
9.9.2.6. (1) A building containing a hotel shall be separated from a directly connected adjacent building that does not contain a hotel by a noncombustible fire separation having a 2-hr fire-resistance rating.
(2) An existing wall having a 2-hr fire-resistance rating and constructed as a fire separation shall be deemed to be in compliance with Sentence (1).
(3) Where the connection consists of an aboveground or underground walkway in conformance with Articles 3.2.3.20. and 3.2.3.21. of the 1994 Building Code, the building shall be deemed to be in compliance with Sentence (1).
Interconnected floor spaces
9.9.2.7. (1) Despite Sentence 9.9.2.1.(6), a floor assembly may be penetrated by an unprotected opening between two contiguous storeys up to the fifth storey where
(a) the building is of noncombustible construction,
(b) the interconnected floor space does not contain sleeping accommodation, and
(c) the required fire-resistance rating of the floor assembly is maintained.
(2) Despite Sentence 9.9.2.1.(6), in a building that is not more than three storeys in building height and not more than 600 m2 in building area, a floor assembly is not required to be constructed as a fire separation between two contiguous storeys where
(a) the interconnected floor space consists of the first storey and the storey next above or below, but not both,
(b) the interconnected floor space is sprinklered, and
(c) the sprinkler system is equipped with a waterflow device and electrical supervision in conformance with Sentence 3.2.8.7.(2) of the 1994 Building Code.
(3) Despite Sentence 9.9.2.1.(6), a floor assembly in a storage garage or an open air parking garage is not required to be constructed as a fire separation.
(4) Interconnected floor spaces in conformance with Subsection 3.2.8. of the 1994 Building Code shall be deemed to be in compliance with Sentence (1).
Fire separation of guest suites
9.9.2.8. (1) Guest suites shall be separated from adjacent rooms and areas on the same floor area by
(a) a fire separation having a 30-min fire-resistance rating in buildings that are not more than six storeys in building height, and
(b) a fire separation having a 45-min fire-resistance rating in buildings that are more than six storeys in building height.
Fire separation of corridors
(2) Corridors serving guest suites shall be separated from adjacent rooms and areas on the same floor area by
(a) a fire separation having a 30-min fire-resistance rating in buildings that are not more than six storeys in building height, and
(b) a fire separation having a 45-min fire-resistance rating in buildings that are more than six storeys in building height.
(3) Existing fire separations having less than a 45-min fire-resistance rating shall be deemed to be in compliance with Sentences (1) and (2) where the floor area is sprinklered.
Fire separations between major occupancies
9.9.2.9. (1) Fire separations having a 45-min fire-resistance rating shall be provided between major occupancies.
(2) Existing fire separations having a 30-min fire-resistance rating shall be deemed to be in compliance with Sentence (1) where
(a) the floor area is sprinklered, or
(b) the part of the building containing the major occupancy is equipped with fire detectors and connecting corridors are equipped with smoke detectors as part of the fire alarm system of the building.
Protection of openings in fire separations
9.9.2.10. (1) Closures in fire separations shall be in conformance with
(a) Sentences 3.1.8.4.(2) and 3.1.8.10.(1) of the 1994 Building Code, and
(b) Articles 3.1.8.11. and 3.1.8.13. of the 1994 Building Code.
(2) Despite Sentence (1), openings in fire separations to which Article 9.9.2.8. or 9.9.2.11. applies may be protected with closures having a 20-min fire-protection rating.
(3) Where a 1-hr or less fire-protection rating is required, existing closures consisting of
(a) hollow metal or kalamein doors in hollow metal frames, with openings, if any, protected by wired glass and equipped with self-closing and latching devices, or
(b) wired glass screens set in fixed steel frames
shall be deemed to be in compliance with Sentence (1).
(4) Where a 20-min fire-protection rating is required, existing closures consisting of door assemblies of 45 mm solid core wood doors installed in solid wood or hollow metal frames and equipped with self-closing and latching devices shall be deemed to be in compliance with Sentences (1) and (2).
(5) Despite Sentence (1), existing closures in fire separations to which Articles 9.9.2.8. and 9.9.3.6. apply need not be equipped with latching devices in buildings that are not more than six storeys in building height.
(6) Where the floor area is sprinklered, existing closures in fire separations to which Article 9.9.2.8. applies shall be deemed to be in compliance with Clause (1)(a) and Sentence (2).
(7) Fire dampers shall be installed in fire separations in conformance with Article 3.1.8.7. of the 1994 Building Code.
(8) Despite Sentence (7), fire dampers are not required in existing noncombustible ducts at penetrations of fire separations.
Laundry rooms, storage rooms and maintenance shops
9.9.2.11. Laundry rooms, storage rooms exceeding 0.6 m2 in area and maintenance shops shall be separated from the remainder of the building by a fire separation having a 45-min fire-resistance rating.
Fuel-fired appliances
9.9.2.12. (1) Fuel-fired appliances, except for cooking appliances, shall be separated from the remainder of the building by a fire separation having a 1-hr fire-resistance rating.
(2) Sentence (1) does not apply to a gas or oil-fired appliance installed on the roof of a building of noncombustible construction.
(3) Sentence (1) does not apply to fireplaces and space heaters provided the appliance is not located in an exit or in a corridor serving as an access to exit for guest suites.
(4) Despite Sentence (1), the fire-resistance rating of the fire separation above the room is not required where
(a) the required vertical fire separation to the room is provided, and
(b) the room area is fully sprinklered, with a spacing not exceeding 9.5 m² per sprinkler head, or providing a minimum average density of 6.5 L/min/m² over the room area.
(5) Where an appliance is separated in conformance with this Article, sufficient combustion air shall be brought directly from the outside for the safe operation of the appliance.
(6) Where it is impractical to provide combustion air directly from the outside as required in Sentence (5), alternative means for the safe operation of the appliance may be approved.
(7) Despite Sentence (1), a fire separation is not required for a fuel-fired appliance located within a guest suite and serving only that guest suite.
Vertical service spaces
9.9.2.13. (1) Vertical service spaces shall be separated from the remainder of the building by a fire separation having a 45-min fire-resistance rating.
(2) Where the existing vertical service space, including the top and bottom, is sealed with gypsum board, lath and plaster or other similar noncombustible material, the vertical service space shall be deemed to be in compliance with Sentence (1).
Refuse and linen chutes
9.9.2.14. (1) Unless otherwise approved, linen and refuse chutes shall be located in a shaft separated from the remainder of the building by a fire separation having a 1-hr fire-resistance rating.
(2) Linen and refuse chutes shall terminate or discharge directly into rooms that are separated from the remainder of the building by a fire separation having a 1-hr fire-resistance rating.
(3) In buildings more than two storeys in building height, automatic sprinklers shall be installed in each linen or refuse chute
(a) at the top,
(b) at alternate floor levels, and
(c) in the room or bin into which the chute discharges.
(4) An existing chute installation shall be deemed to be in compliance with Sentence (3) where
(a) the chute outlet in the discharge room is protected by an automatic, self-latching closure held open by a fusible link in buildings greater than six storeys in building height,
(b) the room into which the chute discharges is sprinklered, and
(c) at least one sprinkler head with a minimum discharge rate of 66 L/min is located at the top of the chute.
Smoke control
9.9.2.15. (1) Buildings containing a hotel where the vertical distance between the floor of the top storey and grade exceeds 18 m shall have smoke control measures in conformance with Sentences (2) and (3).
(2) Buildings containing a hotel shall
(a) have smoke control measures that prevent smoke spread from floor areas containing other occupancies to upper floor areas that contain guest suites, or
(b) be sprinklered on all floor areas containing other occupancies that are located below floors that contain guest suites.
(3) Buildings containing a hotel shall have smoke control measures in conformance with Article 3.2.6.2. of the 1994 Building Code.
(4) A building shall be deemed to be in compliance with Sentence (3) where
(a) all guest suites have access to an exterior balcony,
(b) the length of corridors serving guest suites does not exceed 30 m between exits,
(c) corridors serving guest suites are equipped with smoke detectors connected to the fire alarm system,
(d) corridors serving guest suites are subdivided in conformance with Sentence (5), or
(e) the building is sprinklered.
(5) The corridor subdivision referred to in Clause (4)(d) shall
(a) separate the corridor into at least two compartments by a fire separation that does not require a fire-resistance rating,
(b) be located so that not more than one of the required exit stairs is located in any one compartment and the distance of travel from any guest suite entrance door to an exit or adjacent compartment does not exceed 25 m, and
(c) include smoke-tight doors equipped with self-closing devices that act as closures in the fire separation.
Pipes, ducts and plenums
9.9.2.16. (1) Pipes, ducts, plenums and other equipment in heating and air handling systems shall be constructed of steel, approved noncombustible material or other approved material.
(2) Insulating materials and adhesives for pipes, ducts, plenums and other components of heating and air handling systems shall be noncombustible or shall have a flame-spread rating of 25 or less or shall be of some other approved composition.
(3) Where an attic space, a crawl space, a corridor ceiling space or any other concealed space is used as a plenum, the concealed space shall be lined with noncombustible material, material having a flame-spread rating of 25 or less or other approved material.
9.9.2.17. (1) A fire separation that separates an exit stairway from the remainder of the building shall not be breached by a duct or other part of an air handling system.
(2) Despite Sentence (1), an exit through a lobby or other entrance area that is within a stairway separation may be breached, provided the stairway is separated from the entrance area by a fire separation having a 45-min fire-resistance rating.
9.9.2.18. No stairway enclosure or corridor shall be used as a plenum to exhaust air from other areas.
Commercial cooking equipment
9.9.2.19. (1) An existing commercial cooking equipment installation in conformance with Sentences (2) to (6) shall be deemed to be in compliance with Sentence 2.6.1.12.(1).
(2) Commercial cooking equipment shall have an existing exhaust system which, unless otherwise approved, shall be provided with
(a) a hood or other primary collection device to collect and confine all cooking vapours and residues emanating from the cooking equipment,
(b) a grease filter or other means of grease extraction,
(c) a duct from the hood or other primary collection device which
(i) leads as directly as possible to the outside,
(ii) is independent and not connected to any other ventilation system, and
(iii) has adequate openings for inspection and cleaning purposes that are equipped with tight fitting doors,
(d) a residue trap with provisions for cleanout at the base of each vertical riser, and
(e) mechanically induced air flow of sufficient velocity to confine cooking vapours and residues to the hood or other primary collection means installed at the cooking equipment.
(3) Pipes, ducts, plenums and other components of the exhaust system shall be constructed of steel, approved noncombustible material or other approved material.
(4) Insulating material and adhesive used in the exhaust system shall be noncombustible or shall have a flame-spread rating of 25 or less or shall have some other approved composition.
(5) The commercial cooking equipment shall be
(a) located in a kitchen that is separated from the remainder of the building by a fire separation having a 45-min fire-resistance rating, or
(b) protected by a fixed fire protection system.
(6) The fire separation referred to in Sentence (5) may contain an unprotected pass-through opening into the adjoining dining area if approved measures are provided to limit fire spread.
Subsection 9.9.3. Means of Egress
Occupant load
9.9.3.1. (1) The occupant load for calculation of the number and width of access to exits and exits referred to in this Section shall be determined in accordance with Subsection 3.1.16. of the 1994 Building Code.
(2) The occupant load of a floor area may vary if it is used for different occupancies at different times, but the exits from the floor area shall provide the aggregate exit width prescribed in Article 9.9.3.2. for the greatest occupant load.
Access to exit
9.9.3.2. (1) Each room, guest suite, podium, terrace, platform, contained open space or other area intended for occupancy shall have egress facilities leading directly to
(a) a public thoroughfare,
(b) an approved open space that has access to a public thoroughfare, or
(c) a corridor where it is possible to go in opposite directions to separate exits, except as otherwise permitted by this Article or Article 9.9.3.3.
Dead end corridors
(2) Dead end corridors shall not be longer than 6 m plus the width of the corridor, unless otherwise approved.
(3) Unless otherwise approved, no area may be served by a dead end corridor where
(a) the area contains an assembly occupancy and its occupant load is greater than 20 persons,
(b) the area is intended for storage and exceeds 200 m², or
(c) the area is intended for a use other than that described in Clauses (a) and (b) and exceeds 100 m² in area or has an occupant load greater than 24 persons.
(4) If a guest suite has access to a second exit or if a guest suite is in a building that is permitted to be served by a single exit in compliance with Article 9.9.3.3., a doorway from the guest suite may open onto
(a) an exit stairway,
(b) a fire escape,
(c) a corridor served by a single exit, or
(d) an exterior passageway served by a single exit stairway.
Egress facilities
(5) Each room, guest suite, podium, terrace, platform, contained open space or other area intended for occupancy shall have two egress doorways placed in such a manner that one doorway could provide egress from the room or area if the other doorway becomes inaccessible to the occupants due to a fire which might originate in the room or area where
(a) the space is intended for assembly occupancy, and
(i) the distance of travel to an egress door from any point in the space exceeds 15 m, or
(ii) the occupant load exceeds 60 persons,
(b) the space is intended for storage, and
(i) exceeds 200 m² in area, or
(ii) the distance of travel to an egress door from any point in the space exceeds 23 m, or
(c) the space is intended for a use other than that described in Clauses (a) and (b), and
(i) exceeds 100 m² in area, or
(ii) the occupant load exceeds 60 persons.
(6) Despite Sentence (5), every room containing an assembly occupancy shall be provided with at least
(a) three independent well-separated egress doorways, where its occupant load is 600 persons or more, and
(b) four independent well-separated egress doorways where its occupant load is 1000 persons or more.
(7) Where a room or floor area is divided into individual spaces for assembly occupancy, egress through an adjacent assembly occupancy is permitted provided each space has at least one independent egress doorway in accordance with Sentence (1) and dividing walls or partitions are not more than 1.35 m in height.
(8) Dividing walls or partitions in Sentence (7) may exceed 1.35 m in height if alternative provisions are approved to provide safe egress.
Egress widths
(9) The aggregate width of required means of egress from a floor area or portion of a floor area shall be determined by multiplying the occupant load of the area served by
(a) 6.1 mm per person, for ramps with a gradient of not more than 1 in 8, doorways, corridors and passageways, or
(b) 9.2 mm per person, for ramps with a gradient of more than 1 in 8 and stairs.
(10) Where two or more egress doorways are required from a floor area or portion of a floor area, a sufficient aggregate width shall be provided so that the egress capacity is not reduced by more than half if any one doorway or opening is inaccessible in an emergency.
(11) Despite Sentences (9) and (10), the minimum clear width of a means of egress shall be not less than
(a) 1100 mm for corridors,
(b) 900 mm for stairs, and
(c) 750 mm for doorways, ramps and all other areas.
Number of exits
9.9.3.3. (1) Each floor area shall be served by a minimum of two exits where
(a) the floor area is intended for assembly occupancy, and
(i) the distance of travel to an exit from any point in the space exceeds 15 m, or
(ii) the occupant load exceeds 60 persons,
(b) the floor area is intended for storage, and
(i) exceeds 200 m² in area, or
(ii) the distance of travel to an exit from any point in the space exceeds 23 m,
(c) the floor area is a basement, and
(i) exceeds 200 m² in area, or
(ii) contains areas that are accessible to the public, or
(d) the floor area is intended for a use other than that described in Clauses (a), (b) and (c), and
(i) exceeds 100 m² in area, or
(ii) the occupant load exceeds 60 persons.
(2) Despite Sentence (1), each floor area shall be served by at least two exits in buildings that are more than three storeys in building height.
(3) Despite Sentence (1), where a building is three storeys in building height, the third storey shall be served by at least two exits unless approved alternative measures are used.
(4) Despite Sentence (3), a single exit is permitted from the third storey used as the residence of the hotel owner or manager.
(5) The minimum distance between exits referred to in Sentences (1), (2) and (3) shall be 9 m or half the maximum diagonal dimension of the floor area, whichever is less.
(6) Exits shall be deemed to be in compliance with Sentence (5) where the floor area is divided by a fire separation having a 45-min fire-resistance rating so that it is necessary to pass through the fire separation to travel from one exit to another exit.
Exit widths
9.9.3.4. Except as provided in Sentence 9.9.3.7.(2), the width of exits shall be in conformance with Article 9.9.3.2.
Travel distance
9.9.3.5. (1) The travel distance to at least one exit shall not exceed
(a) 30 m in a floor area that is not sprinklered,
(b) 45 m in a sprinklered floor area, or
(c) 45 m in a basement that is not accessible to the public.
Stairway separations
9.9.3.6. (1) Each exit stairway shall be separated from the remainder of the building by a fire separation having a 45-min fire-resistance rating.
(2) Each exit stairway shall lead directly to a public thoroughfare or to an approved open space from inside the fire separation described in Sentence (1).
(3) Despite Sentence (2), one exit from a floor area is permitted to lead through a lobby provided
(a) the path of travel through the lobby to the outdoors at ground level is not more than 15 m,
(b) a fire separation, constructed in accordance with Sentence (1), is provided between the lobby and any exit permitted by this Sentence to lead through a lobby,
(c) the lobby is not located within an interconnected floor space described in Article 9.9.2.7.,
(d) from the interior of the exit stair that leads through the lobby, there is an unobstructed path of travel not leading through the lobby to an alternate exit such that
(i) it is not necessary to travel up or down more than one storey to reach the alternate exit by means of a protected access to exit, or
(ii) the path of travel is entirely within the same storey as the lobby and is separated from the lobby by a fire separation having not less than a 45-min fire-resistance rating, and
(e) approved provisions are made to direct occupants to the alternate exit described in Clause (d) in the event of a fire condition in the lobby.
(4) The lobby described in Sentence (3) is permitted to contain an occupancy provided the required egress width is maintained and clearly delineated.
(5) Despite Sentence 9.9.2.12.(3), the lobby described in Sentence (3) is permitted to contain a fireplace or a space heater.
(6) Despite Sentence (2), an exit through a lobby is permitted in conformance with Article 3.4.4.2. or 9.9.8.5. of the 1994 Building Code, as applicable for the size and height of the building.
Exterior stairways and fire escapes
9.9.3.7. (1) Exterior exit stairways and fire escapes shall not serve floor areas above the sixth storey.
(2) Unless otherwise approved, each fire escape used as an exit and each exterior exit stairway shall be in conformance with Articles 3.4.7.2., 3.4.7.3., 3.4.7.5. and 3.4.7.6. of the 1994 Building Code.
(3) Unless otherwise approved, exterior exit stairways, fire escapes and exterior exit passageways serving any storey above the second storey or any basement below the first basement shall be protected against fire exposure from the building by having
(a) window openings, except first storey display windows, protected by wired glass in fixed steel frames, and
(b) doorways and other openings protected by closures having a 45-min fire-protection rating
where such openings are located within 3 m horizontally, within three storeys below, within 10 m below or within 1.8 m above the exterior stairway, fire escape or passageway.
(4) Exterior exit stairways leading across roofs shall be provided with handrails on both sides of the walkway leading to the stairway at the edge of the roof, unless otherwise approved.
(5) Exterior exit stairways and fire escapes below grade shall be
(a) enclosed by side walls and a roof, with a door to ground level at the upper landing,
(b) provided with a roof projecting horizontally for a distance of at least 1.8 m beyond any step or landing, or
(c) provided with some other approved construction or device to prevent snow from accumulating in the stairway or fire escape.
(6) Sentence (3) does not apply to an exterior passageway if
(a) 50 per cent or more of the exterior side is open to the outdoors,
(b) the exterior passageway floor assembly has a fire-resistance rating of not less than 45-min or is of noncombustible construction, and
(c) an exit stairway is provided at each end of the passageway.
Door swing and hardware
9.9.3.8. Each exit door and door providing an access to exit shall be in conformance with Subsection 2.7.2.
Emergency access to floor areas
9.9.3.9. Doors providing access between floor areas and exit stairs shall comply with Article 3.4.6.16. of the 1994 Building Code.
Signs
9.9.3.10. (1) Exit signs shall be installed in accordance with Subsection 3.4.5. of the 1994 Building Code.
(2) Each door opening into an exit stairway shall be identified with the number assigned to that floor in accordance with Article 3.4.6.17. of the 1994 Building Code.
(3) Existing doors that have the floor level identified in plain legible block letters or numbers at least 114 mm high with a 19 mm stroke on both sides of the door shall be deemed to be in compliance with Sentence (2).
Interior finishes
9.9.3.11. (1) Interior finish materials on the walls and ceilings of exits and access to exits shall be in accordance with Subsection 3.1.13. of the 1994 Building Code, except as provided in Sentence (2) or otherwise approved.
(2) Sentence (1) does not apply to
(a) wood or other approved materials, treated with an approved fire retardant, used on the walls of lobbies, foyers, vestibules, entrance halls and other major entrance areas,
(b) combustible interior finishes including paint, wallpaper and other interior finishes not more than 1.5 mm thick used on the walls of corridors, and
(c) combustible materials that have a flame-spread rating of 150 or less used on the walls and ceilings of access to exits if the access to exits are sprinklered.
9.9.3.12. The flame-spread rating of interior wall and ceiling finishes in rooms containing an assembly occupancy shall be not more than 150.
Lighting
9.9.3.13. Every exit and access to exit shall be equipped to provide illumination to an average level of at least 50 lx at floor level and at all points such as angles and intersections at changes of level where there are stairs and ramps.
Emergency lighting
9.9.3.14. (1) Emergency lighting shall be provided in
(a) exits and access to exits in buildings required to have a fire alarm system, and
(b) rooms containing an assembly occupancy with an occupant load of more than 60 persons.
(2) Emergency lighting required in Sentence (1) shall be
(a) designed to provide illumination for a duration of at least
(i) 2 hours in buildings where the vertical distance between the floor of the top storey and grade exceeds 18 m, and
(ii) 30 minutes in buildings where the vertical distance between the floor of the top storey and grade is not more than 18 m,
(b) supplied by a source of energy separate from the primary electrical supply for the building, and
(c) designed to be automatically actuated when the power to the building is interrupted.
(3) Illumination from emergency lighting referred to in Sentence (2) shall be an average of at least 10 lx at floor or tread level, or 1 watt/m2 of floor space.
Subsection 9.9.4. Fire Alarm and Detection
Fire alarm requirements
9.9.4.1. (1) A fire alarm system with listed components shall be installed in each building in accordance with Articles 9.9.4.2. to 9.9.4.12. where
(a) the building area is more than 600 m2,
(b) the building is more than one storey in building height, or
(c) each guest suite is not served by an exterior exit facility leading to ground level.
(2) A building shall be deemed to be in compliance with Sentence (1) where
(a) the building is not more than three storeys in building height,
(b) each guest suite is served by an exterior exit facility leading to ground level,
(c) each guest suite is separated from adjacent rooms by a fire separation having a 45-min fire-resistance rating, and
(d) each guest suite is equipped with a smoke alarm.
(3) A building shall be deemed to be in compliance with Sentence (1) where
(a) the building is not more than three storeys in building height,
(b) sleeping accommodation is provided for not more than 10 persons, and
(c) the building is equipped with
(i) smoke alarms on or near the ceiling in corridors serving guest suites on each floor area, adjacent to each stairway serving the corridors, and on or near the ceiling in the basement, adjacent to each stairway, and
(ii) one manual pull station in each floor area in an approved location,
installed and interconnected so that the actuation of any manual pull station or smoke alarm will cause all smoke alarms to operate and be audible throughout the building.
Automatic detection
9.9.4.2. (1) Automatic detection devices referred to in Sentences (2), (3) and (4) shall be installed and connected to the fire alarm system required in Sentence 9.9.4.1.(1).
(2) Fire detectors shall be installed
(a) in every part of a building that requires a fire alarm system in Article 9.9.4.1., other than corridors, washrooms, closets in guest suites, saunas, refrigerated areas and swimming pools,
(b) at the tops of elevator shafts, and
(c) at the tops of exit stairs.
(3) Despite Sentence (2), fire detectors are not required in existing guest suites where smoke detectors are installed in every corridor serving the guest suites.
(4) Rooms or areas that are sprinklered in accordance with Article 3.2.4.16. of the 1994 Building Code shall be deemed to be in compliance with Sentence (2).
Manual pull stations
9.9.4.3. (1) Unless otherwise approved, manual pull stations shall be installed at
(a) the main reception area, and
(b) near every exit.
(2) Despite Sentence (1), a manual pull station may serve two exits where
(a) the exits are not more than 9 m apart,
(b) the exits are located on the same storey, and
(c) the manual pull station is readily accessible and visible from each exit.
(3) A manual pull station shall be
(a) red in colour,
(b) readily accessible and unobstructed,
(c) readily visible, and
(d) unless otherwise approved, installed at a height not less than 1.2 m and not more than 1.5 m, measured vertically from the finished floor surface.
Alarm signalling devices
9.9.4.4. (1) Alarm signalling devices shall be
(a) installed on all storeys, unless otherwise approved,
(b) located so that the alarm and alert signals when sounded, may be heard throughout the building over all normal sounds at any time, and
(c) be distinctive in sound.
Annunciator panels
9.9.4.5. (1) In a building that is four or more storeys in building height or has a total area of 4000 m2 or more, an annunciator panel shall
(a) be installed near the main entrance, in the main reception area or other approved location that is readily accessible to the fire department, and
(b) indicate all floors with not more than one floor per zone indicated.
(2) Fire detectors required in Clauses 9.9.4.2.(2)(b) and (c) may be considered as part of the adjoining floor for the purposes of Clause 9.9.4.5.(1)(b).
Shutdown of air handling systems
9.9.4.6. Recirculating air handling systems that serve more than one guest suite or storey shall be arranged to shut down upon actuation of the fire alarm system, except where continued operation of the air handling system serves as part of a smoke control system.
Trouble signals
9.9.4.7. (1) A trouble signal sounding device and, where the trouble signal sounding device has a silencing switch, a trouble light shall be installed in
(a) the main reception area, or
(b) a continuously supervised area.
Operation
9.9.4.8. Fire alarm systems shall operate in conformance with Article 3.2.4.4. of the 1994 Building Code, unless otherwise approved.
Continuity
9.9.4.9. Each building shall not have more than one fire alarm system, unless otherwise approved.
Electrical supervision
9.9.4.10. Fire alarm systems shall be electrically supervised.
Emergency power
9.9.4.11. (1) Fire alarm systems shall be provided with an emergency power supply in conformance with Article 3.2.7.8. of the 1994 Building Code.
(2) An existing emergency power supply that is capable of providing supervisory power for not less than 24 hours and emergency power under full load for not less than 5 minutes at the end of the 24-hour period shall be deemed to be in compliance with Sentence (1).
Primary power
(3) Fire alarm system connections to the primary source of power shall be on a separate circuit equipped with separate circuit breakers or fuse switches that are located in a secure area.
(4) When a building is not supplied with primary power from a public utility, two approved independent sources of power shall be provided to the fire alarm system.
Installation
9.9.4.12. (1) Where a fire alarm system is required to be installed, extended or modified by this Section, the installation, extension or modification shall be in conformance with CAN/ULC-S524, “Installation of Fire Alarm Systems”.
(2) Where a fire alarm system has been installed, extended or modified as required by this Section, the system or portion of the system shall be tested in conformance with CAN/ULC-S537, “Standard for the Verification of Fire Alarm Systems”.
(3) Sentences (1) and (2) do not apply to existing fire alarm system components.
Smoke alarms
9.9.4.13. (1) Smoke alarms shall be installed in each guest suite.
(2) Smoke alarms required in Sentence (1) shall be in conformance with CAN/ULC-S531, “Smoke Alarms”.
(3) Existing smoke alarms meeting the requirements of ULC-S531-1978, “Smoke Alarms”, shall be deemed to be in compliance with Sentence (2).
(4) Smoke alarms required in Sentence (1) shall be installed in conformance with CAN/ULC-S553, “Installation of Smoke Alarms”.
(5) Smoke alarms shall be installed with permanent connections to an electrical circuit and shall have no disconnect switches between the overcurrent device and the smoke alarm.
(6) Despite Sentence (5), battery operated smoke alarms may be used.
(7) Unless otherwise approved, at least one smoke alarm shall be installed on each floor of a multi-level guest suite and the smoke alarms shall be interconnected so that the actuation of one smoke alarm will cause all smoke alarms within the guest suite to sound.
Voice communication systems
9.9.4.14. (1) A voice communication system shall be provided in each building where the vertical distance between the floor of the top storey and grade exceeds 36 m.
(2) The voice communication system required by Sentence (1) shall
(a) consist of loudspeakers operated from the central alarm and control facility or other location that is accessible to the fire department and supervisory staff appointed under Section 2.8 and that is approved,
(b) provide a clear verbal signal throughout the building, except for elevator cars, and
(c) provide for automatic silencing of the fire alarm signals or alert signals when the loudspeakers are in use.
(3) Approved existing public address systems compatible with the fire safety plan required under Section 2.8 and capable of communicating instructions to the building occupants shall be deemed to be in compliance with Sentences (1) and (2).
Subsection 9.9.5. Suppression
Access for fire fighting
9.9.5.1. (1) Access routes for fire fighting shall be provided in conformance with the requirements of Articles 3.2.5.5. to 3.2.5.7. of the 1994 Building Code.
(2) Sentence (1) does not apply where the building is sprinklered.
(3) In buildings not greater than six storeys in building height, existing access routes
(a) having a clear width of at least 6 m,
(b) capable of supporting the expected loads imposed by fire fighting equipment and surfaced with concrete, asphalt or other material that provides accessibility under all climatic conditions,
(c) located not less than 3 m and not more than 15 m from the principal entrance, and
(d) connected with a public thoroughfare
shall be deemed to be in compliance with Sentence (1).
(4) Despite Sentence (1), alternative methods may be approved where, in the opinion of the Chief Fire Official, they provide protection for life safety similar to the protection provided by compliance with Sentence (1).
Standpipe systems
9.9.5.2. (1) In buildings that are greater than three storeys in building height, a standpipe and hose system shall be installed in conformance with Subsection 3.2.9. of the 1994 Building Code.
(2) A standpipe and hose system installed in conformance with Sentences (3) to (6) shall be deemed to be in compliance with Sentence (1).
(3) Hose stations shall
(a) be located so that all areas
(i) are protected by a hose station on the same storey, and
(ii) can be reached by a hose stream and are within 6 m of a hose nozzle when the hose is extended,
(b) be provided with a 38 mm hose valve, unless otherwise approved,
(c) be equipped with not more than 30 m of 38 mm hose on a hose rack, unless otherwise approved,
(d) have the hose attached, ready for use at all times and equipped with a shut-off combination fog and straight stream nozzle,
(e) be within easy reach of a person standing on the floor, with the hose valve connection located no more than 1.5 m from the floor, and
(f) be located
(i) in corridors where possible, and
(ii) in hose cabinets.
(4) Despite Subclause (3)(a)(i), a penthouse may be protected by a hose station located in the storey below.
(5) A standpipe and hose system shall
(a) have an adequate water supply capable of producing a hose stream of at least 6 m from the hose nozzle at the highest fire hose outlet, and
(b) be served by at least one fire department connection located on the outside of the building adjacent to a street, readily accessible to the fire department.
(6) Hose cabinets shall be
(a) of sufficient size to accommodate a hose, hose rack, hose valve and fire extinguisher,
(b) conspicuously identified, by lettering at least 50 mm high or by the provision of a sufficiently large glass panel in the door to ensure that the equipment in the cabinet is readily visible,
(c) equipped with a door without locks, constructed to open easily, unless otherwise approved, and
(d) so located that the door, when open, will not obstruct any doorway.
Elevators for firefighters’ use
9.9.5.3. (1) At least one elevator shall be provided for use by firefighters in conformance with Articles 3.2.6.8. and 3.2.6.9. of the 1994 Building Code in buildings where the vertical distance between the floor of the top storey and grade exceeds 18 m.
(2) An elevator shall be deemed to be in compliance with Sentence (1) where
(a) the elevator is capable of providing transportation from the street floor to every floor served by the elevator system,
(b) the elevator is identified on the street floor as an elevator provided for use by firefighters,
(c) the elevator satisfies the requirements of Sentences 3.2.6.8.(1) to (4) of the 1994 Building Code, and
(d) other elevator cabs in the same shaft as the elevator for use by firefighters satisfy the requirements of Sentences 3.2.6.8.(1) and (2) of the 1994 Building Code.
(3) An elevator system that requires transfer from one elevator to another to reach all floors above grade shall be deemed to be in compliance with Sentence (1) where
(a) the elevators are identified on the street floor and the transfer floor as elevators provided for firefighters’ use,
(b) the elevators satisfy the requirements of Sentences 3.2.6.8.(1) to (4) of the 1994 Building Code,
(c) emergency power is provided that is capable of operating one elevator car at a time, in buildings where the vertical distance between the floor of the top storey and grade exceeds 36 m, and
(d) other elevator cabs in the same shaft as the elevator for use by firefighters satisfy the requirements of Sentences 3.2.6.8.(1) and (2) of the 1994 Building Code.
Sprinkler systems
9.9.5.4. Unless otherwise approved, where a building or portion thereof is required to be sprinklered, the sprinkler system shall be designed and constructed in conformance with Articles 3.2.5.13. to 3.2.5.16. of the 1994 Building Code.
Emergency power supply
9.9.5.5. (1) Unless otherwise approved, emergency electric power provided by generators for
(a) fire alarm and detection systems in Sentence 9.9.4.1.(1), and
(b) elevator cars in Clause 9.9.5.3.(3)(c)
shall be installed in conformance with CSA-C282, “Emergency Electrical Power Supply for Buildings”, as applicable.
(2) Unless otherwise approved, emergency electric power required for emergency lighting systems required in Sentence 9.9.3.14.(1) shall be installed in conformance with CSA-C282, “Emergency Electrical Power Supply for Buildings” or CSA-C22.2 No. 141, “Unit Equipment for Emergency Lighting”, as applicable.
O. Reg. 388/97, Part 9; O. Reg. 302/99, ss. 6, 7; O. Reg. 144/06, ss. 17-26.
10. Omitted (provides for coming into force of provisions of this Regulation). O. Reg. 388/97, s. 10.