DRO1113 L11 - Fire Hazards Control Student Copy PDF

Summary

This document provides information on fire hazards, control measures, and fire safety. It covers topics such as fire prevention methods, fire extinguishers and their types, classifications of fire, means of escape, and fire emergency plans.

Full Transcript

INTRODUCTION TO
OSH
(DRO1113)
TOPIC 11:
Fire Hazards & Control
 LESSON OUTCOME
At the end of this chapter, you will be able to:

1) Identify fire hazards and evaluate main fire risks in a
workplace.

2) Explain the basic principles of fire prevention and the
prevention of fire spread in buildings.

3) Identify the appropriate fire alarm system and
firefighting equipment for a simple workplace.

4) Outline a mean of escape for a simple workplace.
 INTRODUCTION
Fire cannot take place
unless three things are
present.

The absence of any one
of these elements will
prevent fire from starting.

Fire extinguishing
depends on removing 1
of the elements.
Fire triangle
 1. SOURCES OF IGNITION
The following are potential sources of ignition in the
typical workplace:

o Naked flames

o External sparks

o Internal sparking

o Hot surfaces

o Static electricity
 2. SOURCES OF FUEL
The things which will burn easily are the most likely
to be the initial fuel, which then burns quickly and
spreads the fire to other fuels.

Common source of fuel:
o Solids – wood, paper, cardboard, plastic,
rubber, etc.
o Liquids – paint, varnish, thinner, adhesives,
petrol, & other chemicals
o Gases – LPG, acetylene and hydrogen
 3. OXYGEN

Oxygen is provided by the air all around, but this can be
enhanced by wind, or by natural or powered ventilation
systems which will provide additional oxygen to
continue burning.

Some chemicals such as nitrates, chlorates, chromates
and peroxides can release oxygen as they burn and
therefore need no external source of air.
 METHODS OF EXTINCTION
Cooling – using water to limit or reduce the temperature

Smothering – limiting the oxygen by using a foam or fire
blanket

Starving – limiting the fuel supply

Chemical reaction – by interrupting the chain of
combustion and combining the hydrogen atoms with
chlorine atoms in hydrocarbon chain
 CLASSIFICATION OF FIRE
Class A – involve solid materials such as wood, paper, etc.

Class B – involve liquids or liquefied solids
o Class B1 – liquid soluble in water (e.g., methanol)
o Class B2 – liquid not soluble in water (e.g., petrol, oil)

Class C – involve gases or liquefied gases such as butane or
propane

Class D – involve metals such as aluminum or magnesium

Class E – involving electrical equipment or circuitry

Class F – involve high-temperature cooking oils or fats in large
catering establishments or restaurants.
 PRINCIPLES OF HEAT
TRANSMISSION & FIRE SPREAD
Fire transmit heat by:
o Convection
o Conduction
o Radiation
o Direct burning

Principles of heat transmission
 PRINCIPLES OF HEAT
TRANSMISSION & FIRE SPREAD
Fire and smoke spread in buildings.

o The smoke rising spread horizontally across
the space deepening until the entire
space is filled.

o Smoke will pass through any holes or gaps
in the wall, ceiling or floor and get into
other parts of the building.

o Smoke move rapidly up staircases or lift
wells and into any area that left open.

o The toxic smoke and gases give danger to
people inside the building.
 CONSEQUENCES OF FIRE
Death
Overcome by gas or smoke
Burns
Burns & overcome by gas or smoke
other
Personal injury
Building damage
Flora and fauna damage
Loss of business and jobs
Transport disruption
Environmental damage
 CONTROL MEASURES
Reduce the amounts of dangerous substances to a
minimum
Avoid or minimize releases
Control releases at sources
Prevent the formation of an explosive atmosphere
Use a method such as ventilation to collect, contain
and remove any releases to a safe place
Avoid ignition sources
Avoid adverse condition that could lead to danger
Keep incompatible substance apart
 MEANS OF ESCAPE IN
CASE OF FIRE
It is essential to ensure that people can escape quickly
from a workplace if there is a fire.

Necessary to improve the fire protection on existing
escape routes, or to provide additional exits.

In deciding about the adequacy of means of escape,
should consider following points:
o People need to be able to turn away from fire as they
escape or be able to pass a fire when it is very small.
o If a single-direction escape route is a corridor – need
protected by fire resisting partitions and self-closing fire
doors.
o Stairways need to separated from workplace.
 FIRE DETECTION & WARNING
Fire alarm
Heat or smoke detection
Installed on the exit route
Automation fire
detection should link into
an electrical fire alarm
system
Audible throughout the
workplace
 FIRE PLANS
Fire plans should be posted in the workplace

Escape routes, number of exits, number of stairs, fire-
resisting doors, fire resisting walls and partitions, place of
safety

Fire safety sign and notice including pictorial fire exits and
fire action notice

The location of fire warning call point and sounders or
rotary gongs

The location of emergency lights

The location and type of PPE
 MEANS OF ESCAPE IN
CASE OF FIRE
Some doors may need to open in the direction of
travel, such as:

o Door from a high-risk area, such as a paint spraying room

o Door that may be used by more than 50 persons

o Door at the foot of stairways where there may be a
danger of people being crushed

o Some sliding doors may be suitable for escape purpose if
they do not put people using them at additional risk, slide
easily and are marked with the direction of opening.

o Doors which only revolve and do not have hinged
segments are not suitable as escape doors.
 MEANS OF ESCAPE IN
CASE OF FIRE
Escape routes should meet the following criteria:

o Where 2 or more escape routes are needed, they should
lead in different directions to places of safety.
o Escape routes need to be short and to lead people
directly to a place of safety.
o It should be possible for people to reach the open air
without returning the area of fire.
o Escapes routes should be wide enough for a volume of
people using them.
o It must be possible to open all doors easily and
immediately from inside without using key or similar
devices.
o Make sure no obstructions on escape routes.
 MEANS OF ESCAPE IN
CASE OF FIRE
Escape route must be well lit.

If the route has only artificial lighting or if it is used during
the hours of darkness, alternative sources of lighting
should be considered in case the power fails during a
fire.

Candles, matches and cigarette lighters are not
adequate forms of emergency lighting.
 MEANS OF ESCAPE IN
CASE OF FIRE
Exit sign on doors or indicating exit routes should be
provided where they will help people to find a safe
escape route.

Signs on exit routes should have directional arrows, ‘up’
for straight on and ‘left’, ‘right’, or ‘down’ according to
the route to be taken.
 MEANS OF ESCAPE IN
CASE OF FIRE
Escape times
o Everyone in the building should be able to get to the
nearest place of safety in between 2 and 3 minutes.
o Where fire drills are held, check how long it takes to
evacuate each floor of the workplace.
o If escape times are too long, re-arrange the workplace.

Reaction time
o Amount of time people will need for preparation before
they escape. (e.g., timing to closing machinery)
o If reaction time are too long, additional routes may need
to be provided.
ADVANTAGES & LIMITATION
OF FIRE EXTINGUISHERS
ADVANTAGES & LIMITATION
OF FIRE EXTINGUISHERS
 FIXED FIRE FIGHTING
EQUIPMENT - SPRINKLER
Sprinkler system can be very effective in
controlling fires.
Designed to protect life and/ or property
and may be regarded as a cost-effective
solution for reducing the risk created by
fire.
Sprinkler system normally extend to the
entire building.
The installation should be designed for the
fire hazard; considering the building
occupancy, the fire load and its burning
characteristics.
 FIRE EMERGENCY PLANS
Each workplace should have an emergency plan.

The plan should include the action to be taken by staff
in the event of fire, the evacuation procedure and the
arrangement for calling BOMBA.

The notice should include the method of raising an
alarm in the case of fire and the location of an
assembly point to which staff escaping from the
workplace should report
 FIRE EMERGENCY PLANS
Basic components should be considered when
designing any fire routine procedures:

o The action to be taken on discovering a fire
o The method of operating the fire alarm
o The arrangements for calling the fire brigade
o The stopping of machinery and plant
o First-stage fire fighting by employees
o Evacuation of the premises
o Assembly staff, customers and visitors, and carrying out a
roll call to account for everyone on the premises.
 FIRE EMERGENCY PLANS

Emergency response team (ERT) is a special team that
responds to emergencies to ensure proper personal
evacuation and safety, shutdown building services and
utilities, work with responding civil authorities, protect
and salvage property, and evaluate areas for safety
prior to re-entry.
 FIRE EMERGENCY PLANS
The alarm system should be tested every week, while
the premises are in normal use.
The test should be carried out by activating a different
call point each week at a fixed time.
Once a fire routine has been established, it must be
tested at regular intervals in order to ensure that all staff
are familiar with the action to be taken in an
emergency.
Drills should be held at least twice a year.
Programs for fire drills should be planned to ensure all
employees are covered.
 IN THIS SESSION:
3 things I learn are...
2 things I need clarification is...
1 thing I am confident with is...
THANK YOU