Fire Protection and Electrical Safety PDF

Summary

This document presents an overview of fire protection and electrical safety, covering topics like fire triangle, fire extinguishers, fire classifications, electrical safety measures, and safety precautions.

Full Transcript

FIRE PROTECTION AND
ELECTRICAL SAFETY

Presented by:
Group 6
 Fire safety is the
set of practices
intended to reduce
destruction caused
by fire.
 Oxygen, heat, and fuel
are frequently referred
to as the "fire triangle."
Add in the fourth
element, the chemical
reaction, and you
actually have a fire
"tetrahedron."
Flammable liquids or
combustible substances must
be kept in the lowest practical
quantity at the workplace.
Flammable liquids include
petrol, ethanol, methylated
spirit, paint thinners, kerosene,
acetone and diesel. Flammable
substances includes both full
and empty gas cylinders.
Those substances which
can burn are called
combustible substances.
For Example: Cloth, straw,
cooking gas, kerosene oil,
coal, charcoal, wood,
leaves, paper, wax,
hydrogen gas, ethanol,
methane, propane, propene.
 HOW TO
EXTINGUISH A
FIRE?
One of the most effective
approaches in fire extinction is
removing the heat. Thus, cooling
with water is one of the most
popular methods. The heat
generated by the fire is
absorbed by the water. This
remains effective as long as the
water can still absorb the heat.
Starving the fire from
its fuel source is a
different approach.
When fire runs out of
flammable materials, it
will eventually burn out
itself.
The third approach involves the
last element in the triangle,
oxygen. Smothering is a
technique where oxygen is
removed from the equation. An
example of this is using a fire
blanket in a frying pan blaze to
reduce the oxygen level below
16%
TYPES OF FIRE
EXTINGUISHER
AND HOW TO
OPERATE IT?
There are five different fire extinguishers, which
are:
Water, water mist or water spray fire
extinguishers
Foam fire extinguishers
Dry Powder – standard or specialist fire
extinguishers
Carbon Dioxide (‘CO2’) fire extinguishers
Wet Chemical fire extinguishers
 1. PULL THE PIN
Pull pin at the top of the
extinguisher, breaking the seal.
When in place, the pin keeps
the handle from being pressed
and accidentally operating the
extinguisher. Immediately test
the extinguisher.
 II. AIM
Approach the fire
standing at a safe
distance. Aim the nozzle
or outlet towards the
base of the fire.
 III. SQUEEZE
Squeeze the handles
together to discharge
the extinguishing agent
inside. To stop discharge,
release the handles.
 III. SWEEP
While you are aiming at
the base of the fire, you
should sweep back and
forth until the fire is
extinguished. If the fire
reignites, repeat the
process.
CLASSIFICATION
OF FIRES
 Class A Fires: “Ordinary” Fires
Class A fires are the most common of the 5
different classes of fires. They occur when common
combustible materials like wood, paper, fabric, trash,
and light plastics catch fire. These accidental fires
are ubiquitous across a variety of industries, so it’s
recommended to have adequate protection against
“ordinary” fires in addition to other condition-
specific fires.
 Class B Fires: Liquids & Gases
Class B fires involve flammable liquids and gases,
especially fuels like petroleum or petroleum-based
products such as gasoline, paint, and kerosene. Other
gases that are highly flammable are propane and
butane, which are common causes of Class B fires.
The best way to deal with these types of fires is by
smothering them or removing oxygen using foam or
CO2 fire suppression equipment.
 Class C Fires: Electrical Fires
Electrical fires fall under Class C and are
common in facilities that make heavy use of
electrical equipment, but they can occur in a
wide range of industries. For example, data
centers might be an obvious risk area for Class
C fires. They must have safeguards in place to
deal with electrical fires.
 Class D Fires: Metallic Fires
Class D fires are not as common as the other
classes, but they do require special attention
because they can be especially difficult to
extinguish. Metallic fires involve flammable
materials like titanium, aluminum, magnesium, and
potassium — all commonly occurring in
laboratories.
 Class K Fires: Grease Fires or Cooking Fires
Class K fires involve flammable liquids, similar
to Class B fires, but are specifically related to
food service and the restaurant industry.
These common fires start from the
combustion of liquid cooking materials including
grease, oils, and vegetable and animal fats.
 PRINCIPLES OF
FIRE PREVENTION
AND CONTROL
 I. Prevent the occurrence of fire
To prevent fire, different demands are made on
the fire behavior of materials and construction
parts. Make sure that a fire cannot develop
quickly: The sooner a fire can develop, the sooner
a fire is no longer manageable. A rapidly developing
fire also hinders escaping to a safe place.
 II. Provide fire compartmentalization
Requirements for compartmentalization are
imposed on a large building or a structure with a
specific use function. The size of a compartment is
determined by the size of the building, the
combination with other rooms or the maximum
walking distance.
 III. Provide fire compartmentalization
Requirements for compartmentalization are
imposed on a large building or a structure with a
specific use function. The size of a compartment is
determined by the size of the building, the
combination with other rooms or the maximum
walking distance.
 IV. Provide safe escape routes
The principle of the safe escape route is that people
can leave the space that is threatened by fire or
smoke as quickly as possible along a safe route to a
safe place. For escape routes, depending on the use
function, requirements are set for material use and
length. Escape routes should of course be free of
obstacles.
 V. Provide fire alarms

The sooner a fire is signaled, the greater
the chance that the fire can still be
extinguished without the help of the fire
brigade, people can escape safely and the
fire brigade can act more repressively.
 VI. Provide extinguishing agents

Fire at an early stage can often be
extinguished without the help of a fire
brigade. Sufficient extinguishing agents
(fire hose reels and hand fire extinguishers)
help to extinguish a fire early.
 VII. Provide facilities for the fire brigade

To facilitate the work of the emergency
services, there are requirements for
accessibility, fire extinguishing water
facilities, the presence of a dry extinguishing
pipe and possibly a fire service lift.
VIII. Provide adequate control and maintenance

Fire prevention facilities are subject
to aging and wear. Regular
maintenance and monitoring of
correct operation are therefore
essential.
GENERAL FIRE
SAFETY
PRECAUTIONS
Always Have an Escape Plan.
Install Smoke Alarms in Your
Place.
Stay on Top of Your Electrical
Wiring System.
Keep Your Heating Equipment in
Check.
Take Special Fire Precautions in the
Kitchen.
Learn to Use a Fire Extinguisher.
Have a Workplace Fire Safety
Checklist.
 LIGHTNING
PROTECTION
Lightning protection systems are used to
prevent or lessen lightning strike damage to
buildings. They protect the internal electrical
components of a building, helping to prevent
fires or electrocution. Lightning protection
comes in the form of a lightning conductor,
usually a metal rod, mounted on a building to
protect it from lightning strikes..
ELECTRICAL
SAFETY
Electrical safety is a system
of organizational measures
and technical means to
prevent harmful and
dangerous effects on
workers from electric
current, arcing,
electromagnetic fields and
static electricity.
ELEMENTS OF
ELECTRICITY
 Voltage (sometimes
referred to as
electromotive force) is
the representation of the
electric potential energy
between two points in an
electric circuit, expressed
in volts.
Amperes or an amp is the
unit measure of the
strength or rate of flow
of electrical current.
Electrical resistance
describes the amount of
opposition there is to the
flow of current.
Resistance to electricity–
that is, electrical
resistance–is a force that
counteracts the flow of
current. In this way, it
serves as an indicator of
how difficult it is for
current to flow.
HAZARDS OF
ELECTRICITY
Electric shock and burns from contact
with live parts
Injury from exposure to arcing (when
electricity jumps from one circuit to
another)
Fire from faulty electrical equipment or
installations
Explosion caused by unsuitable
electrical apparatus
Static electricity igniting
flammable vapours or dusts, for
example in a spray-paint booth
CAUSES OF
ELECTRICAL
FIRES
 1. Faulty Sockets & Outlets
Most electrical fires are
caused by faulty electrical
outlets or worn out sockets
that aren’t properly grounded.
With age, the wiring behind
sockets and outlets wears, the
wires loosen over time and can
eventually break and cause a
fire.
 II. Light Fixtures & Fittings
Another common cause of
electrical fires are lamps,
lightbulbs and light fittings.
It’s important to follow the
wattage guidelines for all light
fixtures and lamps in your
home and to never exceed the
recommended amount.
 III. Extension Leads
When large numbers of
appliances are plugged
into extension leads this
can create an excessive
power load on a single
socket which it may not
be able to handle.
 IV. Portable Heaters
Portable heaters should never
be used for an extended period
of time or overnight and
shouldn’t be placed too close to
combustible surfaces like
curtains, beds, clothing, chairs,
sofas and rugs as this is one of
the most common ways for
them to start a fire.
 V. Outdated Wirings
Breakers are triggered when
a circuit is overloaded with
too much electricity, but old
breaker boxes may have
worn connectors that don’t
work which can cause the
system to overload and
catch fire.
VI. Old or Faulty Appliances
Using old or dated
appliances can be a fire
hazard as they may not be
up to standard when it
comes to wattage usage,
material quality and safety
regulations.
THANK YOU FOR
LISTENING!!!

Presented by:
Group 6