Conestoga College Fire Safety OHS8035 PDF

Summary

This document provides information on fire safety, including the fire triangle, fire tetrahedron, different types of fires (classes), causes of fires, fire behavior, fire safety management, fire prevention, fire protection, and fire suppression methods.

Full Transcript

FIRE SAFETY

OHS8035 Hazard Identification

www.conestogac.on.ca/ce
 Content
Part 1: Fire Safety
Awareness

Part 2: Storage and
Dispensing of
Flammable Liquids

Part 3: Hazards related
to Dust and Vapours
Workplace Fire Hazards

3
Workplace Fire Hazards
What is the fire triangle?
oxygen, heat, fuel

Which class of extinguisher contains water
Class A

What is unique about Class C fire extinguisher?
Non conductive for electrical fires
Such as carbon dioxide
4
 THE NATURE OF FIRE
Fire is a chemical reaction
known as combustion. In
simple scientific terms it is
the rapid oxidation of
combustible material which
releases energy in the form
of light and heat.
Geometrically it is
represented by a triangular
pyramid known as the fire
tetrahedron, the four sides
being representative of heat,
oxygen, fuel and the
chemical chain reaction.
 Fire Tetrahedron

A source of heat is required in order
for ignition to occur

A fire cannot ignite unless it has a
certain amount of heat, and it cannot
grow without heat

Different materials have different
‘flash points’ e.g. the lowest
temperature at which they ignite

Combustion reactions also produce
heat as they burn, further increasing
the temperature of the fuel
 Fire Tetrahedron

A source of fuel is required in order
for ignition to occur

Fire cannot start if there isn’t any
material available to burn.

Businesses and homes alike are full
of flammable materials including
fabrics, wood, oil, and paper.

Fuel is probably the hardest ‘side’ of
the fire triangle you can remove
 Fire Tetrahedron

A fire needs oxygen to start and
continue

To sustain the combustion
reaction, oxygen reacts with the
burning fuel to release heat and
CO2

Fire blankets and certain fire
extinguishers remove the oxygen
‘side’ of the triangle by removing
it or displacing it, causing
suffocation and thereby ceasing
the combustion reaction
 Fire Tetrahedron
Fires involving metals such as
titanium, lithium and magnesium
have a chemical reaction that
requires a different approach for
suppression

This is a Class D fire

Water will exacerbate the
combustion

Requires inert agents like sand to
smother it
 THE CAUSES OF FIRE

Generally, a fire will only occur with the right mixture of
three elements:
a source of fuel,
oxygen and
a source of ignition (heat).

To stop the fire one of these three elements must be
removed from equation
 What causes fire?
Most work environments have various sources of flammable and
combustible materials and also potentially many sources of
possible ignition
Here are just some examples of sources of ignition:
ELECTRICAL HAZARDS Wires, machinery, sparks
FRICTION Rollers, pulleys, conveyors
OPEN FLAMES Welding equipment, furnaces
HEATING DEVICES Floor or wall mounted heaters
SMOKING Matches/cigarette butts
MECHANICAL SPARKS Equipment and machinery
CHEMICALS Incompatible chemicals
 FIRE BEHAVIOUR
Fire behavior refers to the specific fire characteristics that
occur as a result of the fire's interaction with the
environment. Fire behavior characteristics include things
like flashover, spotting, rate of spread, and intensity.

There are five basic fire behavior principles, and they are:
1. Fire must obey physical laws
2. Where there is fire there is smoke
3. It is the vapor that burns
4. Oxygen increases fire intensity
5. The principle of cooling, smothering and starving
 Fire Safety Management
Fire Safety Management can be defined as those
activities which are undertaken to prevent fires from
occurring, the controls that manage fire systems and
emergencies and in the event of an uncontrolled fire, the
suppression methods used to extinguish it.

Fire Safety Management is therefore comprised of
three essential elements:
1. Fire Prevention
2. Fire Protection
3. Fire Suppression
 Fire Prevention
Fire prevention can be defined as those activities that will
reduce or eliminate the risk of unplanned fires. Included are
things such as:
 Fire hazard inspections
 Appropriate storage of combustible materials
 Fire audits
 Disposal of waste flammable materials
 Adoption of good housekeeping practices
 Conducting fire equipment training
 Reporting and correcting fire hazards
 Fire Protection
Fire protection can be defined as the mechanisms which
are established and used to control the application of fire
in the workplace.

They include such things as:
Fire Doors Fire Alarm Systems
Smoke Control Systems Fire Resistant Structures
Emergency Warning Intercom Systems
Emergency Lighting Portable Extinguishers
Sprinklers Hydrants
 Fire Suppression
Fire suppression can be simply defined as stopping the fire.
The best method of stopping a fire will vary from situation
to situation. It depends largely on the type of fuel involved
and the size of the fire itself.
Fire suppression involves the effective application of one
or more of the four methods of extinguishment, which are:
1. Reducing the heat (Cooling)
2. Removing or reducing the oxygen (Smothering)
3. Removing the fuel (Starvation)
4. Stopping the chemical chain reaction
 Extinguishing agents
Water: the most commonly used extinguishing agent.
Foam: forms blanket therefore denying the fire oxygen and
also reduces temperatures
Carbon Dioxide: replaces oxygen available to the fire with
carbon dioxide.
Dry Powder / Chemicals: Variety of different chemicals are
used as fire extinguishing agents. They don’t conduct
electricity but will smother the fire and assist in breaking the
chemical chain reaction.
Fire Blankets: work on the principal of smothering; cutting off
a fire’s oxygen supply either permanently or, until more
effective fire-fighting equipment can be employed.
 CLASSIFICATIONS OF FIRES
Class A ORDINARY COMBUSTIBLES :
These are fires involving such things as wood, paper, fabric and plastic.
Class B FLAMMABLE AND COMBUSTIBLE LIQUIDS:
Included are flammable liquids such as petrol, solvents and oils.
Class C FLAMMABLE GASES:
Included are flammable gases such as propane, butane and natural gas
Class D COMBUSTIBLE METALS:
Included are materials such as magnesium, titanium, and sodium
Class E ELECTRICALLY ENERGISED EQUIPMENT :
Fires that involve a live electrical source
Class K COOKING OILS AND FATS:
Involve vegetable oils, animal oils, or fats in cooking appliances
Part 2: Storage and Dispensing of Flammable Liquids

What is the flammable liquid?

Flammable liquids are liquids that have flash points
below 37.8°C. Example include solvents such acetone,
xylene, ethyl alcohol.
The lower the flash and boiling points, the more
hazardous the liquid. This greatly impacts the storage
restrictions.
In order to determine the flash and boiling points of the
liquids supplier’s SDS should be consulted.
 WHAT THE LAW SAYS?

Open regulations for Industrial Establishments, O.Reg.
851/90 and find sections that prescribe storage and
dispensing of flammable liquids.

Let’s look at the following Let’s discuss key differences
terms: between subsection (1), (2), (3)
 Immediate use
 Sealed containers Can you find another section
 Flash point that prescribes dispensing of
 Metal cabinet flammable liquids?
 Bonding and grounding
Precautions to take when storing and dispensing
flammable liquids
Storing in well ventilated areas to reduce vapour concentrations
Free of ignition sources.
Separately, away from process and production areas
Keeping the amount of materials in storage as small as possible
Keep away from incompatible materials
Store in cool and dry space
Keeping containers closed when not in use
Store only in approved containers
Supplied with adequate firefighting and spill clean-up equipment.
Accessible by firefighters.
Dispense from only one container at a time
Use only approved transfer pumps and cans
Metal containers to be bonded and grounded when dispensing.
Eliminate all ignition sources
Dispense only in well-ventilated areas.
Part 3: Hazards related to Dust and Vapours

A combustible dust is any fine material that has the
ability to catch fire and explode when mixed with air.
When dust is exposed to enough heat or a spark from
any ignition source, it can ignite.
For a combustible dust explosion to occur, the necessary
elements for a fire must be present (fire triangle) and two
additional elements: dispersion of dust particles and
confinement in a vessel, area, room or building.
This is known as Dust Explosion Pentagon
How dust explosion occurs
When dust is
exposed to heat or
a spark from any
ignition source, it
can ignite. Once
fine dust particles
catch fire while
they’re suspended
in the air, known as
deflagration, it
propagates fire,
which could lead to
rapidly spreading
explosion.

Video Source: WorkSafeBC
Hazard Control
Assess the hazard by identifying:
 Materials that can become combustible
 Processes that use or produce combustible dusts
 Open areas where combustible dusts may accumulate
 Hidden areas where combustible dusts may accumulate
 Means by which dust can be dispersed in the air
 Potential ignition sources

To mitigate hazards consider the following:
o Dust Control
o Ignition Control
o Damage Control
o Maintenance of the dust handling equipment
 WHAT THE LAW SAYS?
Open regulations for Industrial Establishments, O.Reg. 851/90 and
find sections that deals with explosion hazards. Let’s discuss it.
65. (1) Subject to subsection (2), a collector that collects
63. A process that is likely to produce a aluminum, magnesium or other fine dust of an easily ignitable
gas, vapour, dust or fume, to such an extent nature shall be located,
as to be capable of forming an explosive (a) outdoors; or
mixture with air shall be carried out in an (b) in a room used solely for the housing of dust-collecting
area which has provision for safe disposal equipment which is,
by burning under controlled conditions or in (i) separated from the rest of the building by a dust-tight
an area which, partition having a minimum fire-resistance rating of one hour,
(a) is isolated from other operations; and
(b) has a system of ventilation adequate to (ii) constructed to provide explosion venting to the outdoors.
ensure that the gas, vapour, dust or fume (2) Subsection (1) does not apply to a collector,
does not reach a hazardous concentration; (a) that uses an inert liquid as a medium to collect dust;
(c) has no potential sources of ignition; (b) that is used for a wood-working operation other than wood
(d) has provision for explosion venting; and flour manufacturing and having less than 0.47 cubic metres per
(e) has, where applicable, baffles, chokes or second capacity;
dampers to reduce the effects of any (c) that will safely contain explosions; or
explosion. (d) that will resist explosions and is equipped with effective
explosion venting to the outdoors.
Questions?

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