Ch. 6
Aqueous Film Forming Foam (AFFF) Extinguishers uses
- Class B fires • Useful in combating fires or suppressing vapors from small fuel spills • Most effective on static pools of flammable liquids • Not suitable for Class C, D, or K fuels • Not suitable for flowing fuels or fuel under pressure
Halogenated agents
- Effective for fires containing materials that are easily damaged by water or dry chemicals • Damaging effect on ozone layer
Flammable and combustible liquids and gases include:
Alcohol Gasoline Lubricating oils Liquefied petroleum gas (LPG)
Wet chemical systems and portable fire extinguishers are used to control and extinguish
Class K fires
Saponification
Forming an oxygen-excluding soapy foam surface
The following are commonly used dry chemicals:
Sodium bicarbonate Potassium bicarbonate Urea-potassium bicarbonate Potassium chloride Monoammonium phosphate
Manual pump
The operator physically applies pressure to a pump that increases pressure within the container which forces the agent out a nozzle at the end of a hose.
Stored-Pressure Wet Chemical Extinguishers
They are intended for use on Class K fires involving cooking fats, greases, and vegetable and animal oils in commercial kitchens
Class D fuel examples
Titanium Lithium Magnesium Potassium Sodium
When the extinguishers discharge carbon dioxide, a static electrical charge builds up on the discharge horn.
Touching the horn before the charge has dissipated can result in a shock.
Saponification converts the fatty acids or fats in the following oils to a soapy film:
Vegetable oil Peanut oil Canola oil Other oils with little or no fatty acids
Class A fires can be extinguished by
Water Water based agents- Class A foam Dry chemicals
The Class C rating is assigned in addition to
a rating for Class A and/or Class B fires
Class B fires involve flammable and combustible
liquids and gases
Dry Powder Extinguishers uses
• Class D fires • No agent will work for all combustible metals
Wheeled CO2 units
- Larger than handheld units • Usually have 50- to 100-pound (25 to 45 kg) capacities • Most commonly used in airports and industrial facilities • Operator must wheel unit to fire, then deploy the hose, otherwise operation is same as handheld units
Carbon Dioxide (CO2) Extinguishers- Function and application
- Limited discharge reach • Winds disperse extinguishing agent • Do not require freeze protection • Store CO2 under its own pressure as liquefied gas • Discharges agent through plastic or rubber horn at the end of a hose or tube • Gaseous discharge usually forms dry ice crystals or "snow" • Gas displaces oxygen and smothers the fire • Little cooling effect • Does not suppress surface vapors; fuels may reignite
Aqueous Film Forming Foam (AFFF) Extinguishers differences from stored-pressure water extinguishers:
- Tank contains specified amount of concentrate mixed with water to produce foam solution • AFFF has air-aspirating foam nozzle
The nonexpert operator is expected to extinguish
1 square foot (0.09 m2) for each numerical rating or value of the extinguisher rating
Class A portable fire extinguishers are rated from
1-A through 40-A
Class B portable fire extinguishers are classified with numerical ratings ranging from
1-B through 640-B
To calculate the water capacity of a Class A extinguisher, multiply the number in front of the "A" by
1¼ gallons (5 L). For a 1-A rating, 1¼ gallons (5 L) of water are required
Pressure cartridge
A separate cartridge on the side of the container contains inert gas. When the operator punctures the cartridge seal, the expellant enters the container and forces the agent out a nozzle on the end of a hose
Some common uses of magnesium are in:
Cameras Laptops Luggage Metal box springs for beds Wheels and transmission components for automobiles
Dry Chemical Extinguishers — Wheeled Units uses
Class A, B, and C fires
The three most common combinations of class extinguishers are
Class A-B-C, Class A-B, and Class B-C
Aqueous film forming foam (AFFF) extinguishers are intended for
Class B fires
Water and water-based agents conduct electrical current and cannot be used on
Class C fires until the electricity has been shut off
Fire extinguishing capability tests are not specifically conducted for
Class C ratings
Stored pressure
Compressed air or inert gas within the container forces the agent out a nozzle at the end of a hose when the operator presses the handle.
_________ agents are for use on Class A-B-C fires and/or Class B-C fires; _________ agents are only for use on Class D fires.
Dry chemical; dry powder
Smothering
Excluding oxygen from the burning process
When pressurizing a cartridge-type extinguisher, do not place your head or any other part of your body above the top of the extinguisher.
If the fill cap was not properly screwed back on, the cap and/or a cloud of agent can be forcibly discharged.
Pump-Type Water Extinguishers
Intended primarily for ground cover fires May be used for small Class A fires Usually worn on operator's back Use manually operated slide pump Nozzle produces straight stream, fog, or water-mist pattern
Chemical flame inhibition
Interrupting the chemical chain reaction in the burning process
All portable fire extinguishers expel their contents using one of the following mechanisms:
Manual pump Stored pressure Pressure cartridge
Class A Name
Ordinary combustibles
Water-type extinguishers must be protected against freezing if exposed to temperatures lower than 40°F (4°C).
Protection options include adding antifreeze to the water or storing them in warm areas.
Common portable fire extinguishers include:
Pump-type water extinguishers Stored-pressure water extinguishers Stored-pressure extinguishers Wet chemical stored-pressure extinguishers Aqueous film forming foam (AFFF) extinguishers Clean agent extinguishers CO2 extinguishers Dry chemical extinguishers Dry powder extinguishers
Class D- Testers consider the following factors during each test:
Reactions between the metal and the agent Toxicity of the agent Toxicity of the fumes produced and the products of combustion Time to allow metal to burn completely without fire suppression compared to the time to extinguish the fire using the extinguisher
Cooling
Reducing the burning material below its ignition temperature
There are two basic types of dry chemical extinguishers:
Regular B-C-rated Multipurpose and A-B-C-rated
These fire extinguishers contain a special potassium-based, low-pH agent formulated to operate on the principle of saponification in which the agent combines with the oils to create a soapy foam surface over the cooking appliance.
Stored-Pressure Wet Chemical Extinguishers
Class A/ ordinary combustibles examples
Textiles Paper Plastics Rubber Wood
Water applied to a combustible metal fire results in
a violent reaction that intensifies the combustion and causes bits of molten material to spatter in every direction.
Stored-pressure water extinguishers, also called
air-pressurized water (APW) extinguishers or pressurized water extinguishers
Dry chemical extinguishers are
among the most common portable fire extinguishers in use today
Agents used to extinguish Class B fires include
carbon dioxide (CO2), dry chemicals, and Class B foam
There are two basic designs for handheld dry chemical extinguishers:
cartridge-operated and stored-pressure
Certain extinguishing agents are only effective on
certain classes of fire or fuels
Class K fires involve
combustible cooking oils such as vegetable or animal fats and oils that burn at extremely high temperatures
Class D fires are those involving
combustible metals and alloys
The water/AFFF solution is expelled using
compressed air or nitrogen stored in the tank with the solution
Halons were extremely effective for extinguishing fires in
computer rooms, aircraft engines, and areas that contain materials that could easily be damaged by water or dry chemical agents
The Class C rating confirms that the extinguishing agent will not
conduct electricity
Class C extinguishing agents will not
conduct electricity which makes them suitable for electrical fires
Smothering extinguishing agents will not work on materials that
contain their own oxidizing agent
The Class A foam concentrate serves as a wetting agent and can aid in extinguishing
deep-seated fires in upholstered furniture or vehicle seats and wildland fires in densely matted vegetation
Similar in appearance to standard stored-pressure water extinguishers, stored-pressure water-mist extinguishers use
deionized water as the agent and nozzles that produce a fine spray instead of a solid stream
Do not confuse dry powder extinguishers with
dry chemical units used on Class A, B, and C fires
Class D ____________ extinguishers work best on these types of fires.
dry powder
Class C fires involve
energized electrical equipment
Because impurities in water make it conduct electricity, the deionized water also makes these Class A extinguishers safe to use on
energized electrical equipment (Class C)
To meet the minimum criteria for Class K rating, agents must
extinguish fire with surface area of 2.25 square feet (0.2 m2)
Use only Class D rated fire extinguishers to
extinguish metal fires
AFFF finished foam
floats on fuel surfaces and creates a vapor seal to prevent reignition
Some manufacturers add Class A foam concentrate to pump-type or stored-pressure water extinguishers to
increase their effectiveness
Firefighters may encounter these (Type K) fuels in
private homes, commercial and institutional kitchens, and industrial cooking facilities
Class A foam concentrate reduces the surface tension of water, allowing the water to
quickly penetrate the surface
Do not apply AFFF foam directly onto the fuel • Allow foam to
rain down onto fuel's surface or deflect foam off nearby object
Class D agents do not
receive a rating for use on other classes of fire
Fine spray enhances water's cooling and soaking characteristics and
reduces scattering of burning material
Class K rated extinguishers work because of
saponification
Wet chemical agents containing an alkaline mixture, such as potassium acetate, potassium carbonate, or potassium citrate, suppress the vapors and
smother the fire
AFFF extinguishers are most effective on
static pools of flammable liquids
Fire extinguishers are often
suitable to extinguish more than one class of fire while some are only designed for a particular class of fire
The Class A rating of extinguishers is primarily based on
the amount of water and the duration and range of the discharge used in extinguishing test fires
When an extinguishing agent is determined to be safe and effective for use on a combustible metal, manufacturers include
the application instructions on the faceplate of the extinguisher; they do not give a numerical rating
Class B extinguisher's rating is based on
the approximate square foot (square meter) area of a flammable liquid fire that a nonexpert operator can extinguish using one full extinguisher
Magnesium fires can be identified by
the bright white emissions during the combustion process
The use of water or water-based agents on Class D fires will cause
the fire to react violently, emit bits of molten metal, and could injure nearby firefighters
An extinguisher should be used only for
the fire type(s) for which it is intended
Select extinguishers that minimize
the risk to life and property and are effective in extinguishing the fire
Test fires for establishing Class D extinguisher ratings vary with
the type of combustible metal tested
In addition to being rated according the type of fire they will extinguish, portable fire extinguishers are also rated according to
the type of extinguishing agent and the mechanism used to expel the contents
Portable fire extinguishers are classified according to
the type of fire that each is designed to extinguish
Once the power supply has been turned off or disconnected, firefighters can
treat the fire as a Class A or B fire
Dry Chemical Extinguishers — Wheeled Units function and operation
• Agent in one tank and pressurizing gas in a separate cylinder • Position the unit, then stretch hose out completely • Introduce pressurizing gas into agent tank and allow it to pressurize before opening the nozzle • Significant nozzle reaction • Agent is applied in same manner as handheld, cartridgetype dry chemical extinguishers
Dry Chemical Extinguishers application
• Application may result in cloud of airborne particulate • Agents are nontoxic • Particulate cloud may reduce visibility and create respiratory problems • Class A fires — Direct agents at the fuel to cover it • Once flames are knocked down, apply agent intermittently on smoldering areas
Clean Agent Extinguishers uses
• Cool and smother Class A and B fires • Inhibit sustained chemical reaction in Class C fires • Nonconductive and can extinguish Class C fires • Developed to replace Halons
Carbon Dioxide (CO2) Extinguishers uses
• Handheld or wheeled units • Most effective for Class B and C fires
Dry Chemical Extinguishers- Additives and agents
• Make agents moisture-resistant and prevent them from caking • Keeps agents ready to use after long storage time • Many agents can be mildly corrosive • Some compatible with foam
Dry Powder Extinguishers- function and operation
• Powdered agents applied with handheld or wheeled extinguishers or a shovel or scoop • Completely cover burning area with the agent • Apply agent gently • Avoid scattering burning material • Additional applications as needed to cover hot spots • After extinguishment, leave material undisturbed until it is completely cooled
Handheld Cartridge operated:
• Pressure cartridge connected to agent tank • Operator pushes plunger to release gas from cartridge and pressurize the tank • Uses nitrogen or carbon dioxide as the pressurizing gas
Handheld stored-pressure:
• Similar design to air-pressurized water extinguishers • Agent storage tank maintains constant pressure of about 200 psi (1 400 kPa) • Uses nitrogen or carbon dioxide pressurizing gas
Stored-Pressure Water Extinguishers uses
• Small Class A fires • Small hot spots during overhaul
Stored-Pressure Water Extinguishers function
• Store water and compressed air or nitrogen • Gauge on valve assembly displays the pressure level • Stored pressure forces water up siphon tube and out the hose
halotron extinguisher
• U.S. EPA approved alternative clean agent • Does not harm the ozone
