Fire Extinguisher

Shopping on line can be easy, simple and save you lots of money. It can also take a lot of your time, frustrate you, and result in unwanted purchases. Now the same can be said for regular high street shopping, but with the vast opportunity presented by the Internet it will pay you to spend a few minutes reading this and understanding how to better optimize your Fire Extinguisher shopping experience:

1. Compare - without doubt the biggest advantage that the Fire Extinguisher offers shoppers today is the ability to compare thousands of Fire Extinguisher at a time. This is a great thing, but not necessarily all the time! Too much can be daunting at times so take advantage of the great comparison sites and where possible let them do the hard work for you.

2. Research - if it has been said it will be on the internet. Ignorance is no longer a justifiable reason for buying the wrong thing. Take the time to research in detail everything that you could possible want to know about

3. Testimonials - don't know anybody that has bought a Fire Extinguisher? Wrong! If the Fire Extinguisher is good the internet will let you know. Use the Internet as a friend and get testimonials before you buy.

4. Questions - Got a question about Fire Extinguisher then search the Forums, FAQ's, Blogs etc. Don't be afraid to ask .....

5. Reputation - Never heard of the company selling Fire Extinguisher? Don't worry, no reason why you should know every company in the world, but you know someone that does! Use the internet to find out what people are saying about Fire Extinguisher and build up a picture of their reputation for sales, returns, customer service, delivery etc.

6. Returns - still worried that even after all of the above your Fire Extinguisher wont be what you want? Check out the returns policy. There is so much competition now that someone, somewhere is bound to offer the terms that you are comfortable with.

7. Feedback - happy with your Fire Extinguisher then let people know, after all you are depending on others people input in your buying decision, so why not give a little back.

8. Security - check for the yellow padlock on the Fire Extinguisher site before you buy, and the s after http:/ /i.e. https:// = a secure site

9. Contact - got a question about Fire Extinguisher, or want to leave a comment then check out the sites contact page. Reputable companies have them and respond.

10. Payment - ready to pay for your Fire Extinguisher, then use your credit card or PayPal! Be aware of companies that don't accept them, there may be genuine reasons but given the huge amount of choice you have when buying online there is no reason at all not to buy via credit card or PayPal.

A fire extinguisher is an active fire protection device used to extinguish or control small fires, often in emergency situations. Typically, a fire extinguisher consists of a handheld cylindrical pressure vessel containing an Fire extinguisher#Chemistries which can be discharged to extinguish a fire.

Usage The typical steps for operating a stored pressure fire extinguisher (described by the acronym "PASS") are the following:

P - Pull the safety pin A - Aim the nozzle at the base of the fire, from a safe distance (*about 4-10 feet away) S - Squeeze the handle S - Sweep the extinguisher from side to side while aiming at the base of the fire

The approximate starting distance varies by the size and type of the extinguisher. (ie. Water APW vs. 2 1/2 lb. Dry Chemcial.)

If using a cartridge operated extinguisher you must push down on the cartridge puncturing lever to pressurize the extinguisher after pulling the pin.
CO2 fire extinguishers usually have a horn-shaped nozzle. Do not touch this horn (or the pipe linking it to the extinguisher) when attempting to put out a fire - your hand may freeze to the extinguisher.

There are various types of extinguishers, which are used for different types of fires; using the wrong type can worsen the fire hazard, but using the right one can better the situation.

History The first automatic fire extinguisher of which there is any record was patented in England in 1723 by Ambrose Godfrey, a celebrated chemist. It consisted of a cask of fire-extinguishing liquid containing a pewter chamber of gunpowder. This was connected with a system of fuses which were ignited, exploding the gunpowder and scattering the solution. This device was probably used to a limited extent, as Bradley's Weekly Messenger for November 7, 1729, refers to its efficiency in stopping a fire in London.

The modern fire extinguisher was invented by British Captain George William Manby in 1818; it consisted of a copper vessel of 3 gallons (13.6 litres) of pearl ash (potassium carbonate) solution contained within Pneumatics.

The soda-acid extinguisher was invented in the 19th century, which contained a cylinder of 1 or 2 gallons of water with sodium bicarbonate mixed into it. A vial was suspended in the cylinder containing concentrated sulphuric acid. Depending on the type of extinguisher, the vial of acid could be broken in one of two ways. One used a plunger to break the acid vial, while the second released a lead bung that held the vial closed. Once the acid was mixed with the bicarbonate solution, carbon dioxide gas was expelled and thereby pressurize the water. The pressurized water was forced from the canister through a nozzle or short length of hose.

Around 1912 Pyrene invented the carbon tetrachloride or CTC extinguisher, which expelled the liquid from a brass or chrome plating container by a handpump; it was usually of 1 imperial quart (1.1 L) or 1 imperial pint (0.6 L) capacity but was also available in up to 2 imperial gallon (9 L) size. A further variety consisted of a glass bottle "bomb" filled with the liquid that was intended to be hurled at the base of a fire. The CTC vaporized and extinguished the flames by chemical reaction. The extinguisher was suitable for liquid and electrical fires, and was popular in motor vehicles for the next 60 years. The vapor and combustion by-products were highly toxic, and could cause death in confined spaces.

Classification Internationally there are several accepted classification methods for hand-held fire extinguishers. Each classification is useful in fighting fires with a particular group of fuel.

Australia {| class="wikitable"! Type || Pre-1997 || Current || colspan="5" | Class|-| Water|colspan="2" | Solid red || A || || || || |-| Foam || Solid blue || Red with a blue band || A || B || || || |-| Powder|colspan="2" | Red with a white band || A || B || C || E || |-| Carbon dioxide|colspan="2" | Red with a black band || A (limited) || B || C || E || F|-| Vapourising liquid (not halon)|colspan="2" | Red with a yellow band || A || B || C || E || |-| Halon || Solid yellow || — || A || B || || E || |-| Wet chemical || Solid oatmeal || Red with an oatmeal band || A || || || || F|}In Australia, yellow (Halon) fire extinguishers are illegal to own or use on a fire, unless an essential use exemption has been granted.{{cite web|url=http://www.deh.gov.au/atmosphere/ozone/ods/halon/disposal.html|title=Halon Disposal|work=Ozone Protection|publisher=Australian Government Department of the Environment and Heritage (Australia)|accessdate=2006-12-12-->

United Kingdom According to the standard BS EN 3, fire extinguishers in the United Kingdom as all throughout Europe are red RAL 3000, and a band or circle of a second color covering at least 5% of the surface area of the extinguisher indicates the contents. Before 1997, the entire body of the fire extinguisher was color coded according to the type of extinguishing agent.

{| class="wikitable"! Type || Old Code || BS EN 3 Colour Code || colspan="6" | Fire Class|-| Water || Signal Red || Signal Red || A || || || || || |-| Foam || Cream || Red with a Cream panel above the operating instructions || A || B || || || sometimes E || |-| Dry Powder || French Blue || Red with a Blue panel above the operating instructions || A || B || C || || E || |-| Carbon Dioxide CO2 || Black || Red with a Black panel above the operating instructions || A (Limited) || B || || || E || |-| Halon || Emerald Green || Pre-03- Signal red with a green panel || A || B || || || E || |-| Wet Chemical || No F Class || Red with a Canary Yellow panel above the operating instructions || A || || || || || F|-||Class D Powder||French Blue||Red with a Blue panel above the operating instructions || || || || D || || |}

The UK recognizes six fire classes. Class A fires involve organic solids such as paper and wood. Class B fires involve flammable liquids. Class C fires involve flammable gases. Class D fires involve metals, Class E fires involve live electrical items and Class F fires involve cooking fat and oil.Fire extinguishing capacity is rated by fire class using numbers and letters such as 13A, 55B.EN 3 does not recognize a separate E class - this is an additional feature requiring special testing (dielectric test per EN 3-7:2004) and NOT passing this test makes it compulsory to add a special label (pictogram) indicating the inability to isolate the user from a live electric source.

In the UK the use of Halon gas is now illegal except under certain situations. {{cite web|url=http://www.envirowise.gov.uk/Ref197|title=Disposal Of Halon - Envirowise-->

United States There is no official standard in the United States for the color of fire extinguishers, though they are typically red, except for Class D extinguishers, which are usually yellow. Extinguishers are marked with pictograms depicting the types of fires that the extinguisher is approved to fight. In the past, extinguishers were marked with colored geometric symbols, and some extinguishers still use both symbols. No official pictogram exists for Class D extinguishers, though training manuals sometimes show a Drill#Drill press with shavings burning underneath. The types of fires and additional standards are described in National Fire Protection Association 10: Standard for Portable Fire Extinguishers.

{| class="wikitable"! Fire Class || Geometric Symbol|| Pictogram || Fire classes|-| A || Green Triangle || Garbage can and wood pile burning || Ordinary combustibles|-| B || Red Square || Gasoline can with a burning puddle || Flammable liquids and gases|-| C || Blue Circle || Electric plug with a burning outlet || Energized electrical equipment|-| D || Yellow Star || Drill press with burning shavings (not official) || Combustible metals|-| K || Black Hexagon || Pan burning || Cooking oils|-|}

The Underwriters Laboratories rate fire extinguishing capacity in accordance with UL/American National Standards Institute 711: Rating and Fire Testing of Fire Extinguishers. The ratings are described using numbers preceding the class letter, such as 1-A:10-B:C. The number preceding the A multiplied by 1.25 gives the equivalent extinguishing capability in gallons of water. The number preceding the B indicates the size of fire in square feet that an ordinary user should be able to extinguish. There is no additional rating for class C, as it only indicates that the extinguishing agent will not conduct electricity, and an extinguisher will never have a rating of just C.

For additional US UL rating information see Fast Flow Extinguishers

Installation Fire extinguishers are typically fitted in buildings at an easily-accessible location, such as against a wall in a high-traffic area. They are also often fitted to motor vehicles, watercraft, and aircraft - this is required by law in many juristictions, for identified classes of vehicles. Under NFPA 10 all commercial vehicles must carry at least one fire extinguisher (size/UL rating depending on type of vechical and cargo (ie. fuel tankers typically must have a 20lb. when most others can carry a 5lb.) The revised NFPA 10 created criteria on the placement of "Fast Flow Extinguishers" in locations such as those storing and transporting pressurized flammable liquids and pressurized flammable gas or areas with possiblity of three dimensional class B hazards are required to have "fast flow" extinguishers as required by NFPA 5.5.1.1.Varying classes of competition vehicles require fire extinguishing systems, the simplest requirements being a 1A10BC handheld portable extinguisher mounted to the interior of the vehicle.

Types of extinguishing agents Dry Chemical Powder based agent that extinguishes by inhibiting the free radicals produced by combustion. It has no cooling or smothering effect and a partially extinguished fire will flash back.

Ammonium phosphate, used on class A, B, and C fires. It receives its class A rating from the agent's ability to melt and flow at 350 degrees to smother the fire. More corrosive than other dry chemical agents. ABC Dry Chemical
Sodium bicarbonate, used on class B and C fires. Interrupts the fire's chemical reaction.
Potassium bicarbonate (aka Purple-K), used on class B and C fires. About two times as effective on class B fires as sodium bicarbonate. The preferred dry chemical agent of the oil and gas industry. The only dry chemical agent certified for use in AR-FF by the NFPA.
Potassium bicarbonate & Urea Complex (aka Monnex), used on Class B and C fires. More effective than all other powders due to its ability to decrepitate (where the powder breaks up into smaller particles) in the flame zone creating a larger surface area for free radical inhibiton

Foams Mixed with water and applied to fuel fires as either an aspirated (mixed & expanded with air in a branch pipe) or non aspirated form to form a frothy blanket or seal over the fuel, preventing oxygen reaching it. Unlike powder, foam can be used to progressively extinguish fires without flashback

AFFF (aqueous film forming foam), used on A and B fires and for vapor suppression. The most common type in portable extinguishers
AR-AFFF (Alcohol-resistant aqueous film forming foams), used on fuel fires containing alcohol. Forms a membrane between the fuel and the foam preventing the alcohol from breaking down the foam blanket.
FFFP (film forming fluoroprotein) contains naturally occurring proteins from animal fats to create a foam blanket that is more heat resistant then the synthetic AFFF foams.
Compressed Air Foam System (compressed air foam system) Any APW style extinguisher that is charged with a foam solution and pressurized with compressed air. Generally used to extend a water supply in wildland operations. Used on class A fires and with very dry foam on class B for vapor suppression.
Arctic Fire is a liquid fire extinguishing agent that emulsifies and cools heated materials quicker than water or ordinary foam. It is used extensively in the steel industry. Effective on classes A, B, and D.
FireAde, a foaming agent that emulsifies burning liquids and renders them non-flammable. It is able to cool heated material and surfaces similar to CAFS. Used on A and B (said to be effective on some class D hazards, although not recommended due to the fact that fireade still contains amounts of water which will react with some metal fires).

Water Cools burning material

APW (Air pressurized water) cools burning material by absorbing heat from burning material. Effective on only Class A fires, but has the advantage of being cheap, harmless, and relatively easy to clean up.
Water Mist uses a fine misting nozzle to break up a stream of deionized water to the point of not conducting electricity back to the operator. Class A and C rated. Used widely in Hospitals.

Water Additives

Wet Chemical (potassium acetate) extinguishes the fire by forming a crust over the burning oil(saponification). Generally class A and K (F in Europe) only.
Wetting Agents Detergent based additives used to break the surface tension of water & improve penetration of Class A fires. Enables a 3 litre water extinguisher to achieve the fire fighting capacity of a 9 litre plain water type

Clean Agents Agent does not extinguish by smothering, but displaces oxygen, or inhibits chemical chain reaction. They are labeled clean agents because they do not leave any residue after discharge which is ideal for sensitive electronics and documents.

Halon (including Bromochlorodifluoromethane and Bromotrifluoromethane), a gaseous agent that inhibits the chemical reaction of the fire. Classes B:C for lower weight fire extinguishers (5lbs or less) and A:B:C for heavier weights (9-17lbs). Banned from new production, except for military use, as of January 1, 1994 as its properties contribute to ozone depletion and long atmospheric lifetime, usually 400 years. Halon was completely banned in Europe resulting in stockpiles being sent to the United States for reuse. Although production has been banned, the reuse is still permitted. Halon 1301 and 1211 are being replaced with new halons which have no ozone depletion properties and low atmospheric lifetimes, but are less effective.
CO2, a clean gaseous agent which displaces oxygen. Highest rating for 20 pound portable CO2 extinguishers is 10B:C. Not intended for Class A fires.
Mixtures of inert gases, including Inergen and Argonite.

Class D

Sodium Chloride/Bicrbonate Urea Graphite and Copper forms a crust over the burning metal and performs like a heat sink to draw heat away from the burning material, also smothers to a degree. Sodium Chloride Copper is used for lithium fires.Class D Fire Extinguisher

Maintenance

Most countries in the world require regular fire extinguisher maintenance by a competent person to operate safely and effectively, as part of fire safety legislation. Lack of maintenance can lead to an extinguisher not discharging when required, or rupturing when pressurized. Deaths have occurred, even in recent times, from corroded extinguishers exploding.

There is no all-encompassing fire code in the United States. Generally, most municipalities (by adoption of the International Code Council) require inspections every 30 days to ensure the unit is pressurized and unobstructed (done by an employee of the facility) and an annual inspection by a qualified technician. Hydrostatic pressure testing for all types of extinguishers is also required, generally every five years for water and CO2 models up to every 12 years for dry chemical models.

Recently the National Fire Protection Association and ICC voted to allow for the elimination of the 30 day inspection requirement so long as the fire extinguisher is monitored electronically. According to NFPA, the system must provide record keeping in the form of an electronic event log at the control panel. The system must also constantly monitor an extinguisher’s physical presence, internal pressure and whether an obstruction exists that could prevent ready access. In the event that any of the above conditions are found, the system must send an alert to officials so they can immediately rectify the situation. Electronic monitoring can be wired or wireless.

In the UK, three types of maintenance are required:

Basic Service: All types of extinguisher require a basic inspection annually to check weight, correct pressure (using a special tool, not just looking at the gauge) and for signs of damage or corrosion, cartridge extinguishers are opened up for internal inspection & check weighing of the cartridge, labels are checked for legibility, where possible dip tubes, hoses and mechanisms checked for clear free operation ;

Extended Service: Water, Wet Chemical, Foam & Powder extinguishers require every five years a more detailed examination including a test discharge of the extinguisher and recharging- on stored pressure extinguishers this is the only opportunity to internally inspect for damage/corrosion. by recharging fresh agent is used as they all have a shelf life, even water goes foul inside an extinguisher;

Overhaul: CO2 extinguishers, due to their high operating pressure, are subject to pressure vessel safety legislation and must be hydraulic pressure tested, inspected internally & externally and date stamped every 10 years. As it cannot be pressure tested a new valve is also fitted. If replacing any part of the extinguisher (valve, horn etc) with a part from another manufacturer then the extinguisher will lose it's fire rating. This may invalidate insurance.

References Automatic Sprinkler Protection - Goram Dana, S.B.

External links

Underwriters Laboratories tips
MSDS Sheets for hand held portable fire extinguishers
OSHA requirements
internationalsafe.org.uk/html/fsequip/exting.htm Fire Safety Advice Centre (UK)
Canada’s Strategy to Accelerate the Phase-Out of CFC and Halon
-Extinguisher-museum.com > Online museum about antique fire extinguishers and their history
Fire Extinguisher Information Site
Fire Safety Consultants
Automotive Fire Extinguisher Frequently Asked Questions
National Fire Help
Clean Agent Halon Fire Extinguishers
A simple Multiple Choice Help Guideline to identify the type of extinguisher needed
Aviation Fire Extinguishers
A Useful Fire Extinguisher Guide
Legal Requirements For Fire Extinguishers

The approximate starting distance varies by the size and type of the extinguisher. (ie. Water APW vs. 2 1/2 lb. Dry Chemcial.)

If using a cartridge operated extinguisher you must push down on the cartridge puncturing lever to pressurize the extinguisher after pulling the pin.
CO2 fire extinguishers usually have a horn-shaped nozzle. Do not touch this horn (or the pipe linking it to the extinguisher) when attempting to put out a fire - your hand may freeze to the extinguisher.

For additional US UL rating information see Fast Flow Extinguishers

Ammonium phosphate, used on class A, B, and C fires. It receives its class A rating from the agent's ability to melt and flow at 350 degrees to smother the fire. More corrosive than other dry chemical agents. ABC Dry Chemical
Sodium bicarbonate, used on class B and C fires. Interrupts the fire's chemical reaction.
Potassium bicarbonate (aka Purple-K), used on class B and C fires. About two times as effective on class B fires as sodium bicarbonate. The preferred dry chemical agent of the oil and gas industry. The only dry chemical agent certified for use in AR-FF by the NFPA.
Potassium bicarbonate & Urea Complex (aka Monnex), used on Class B and C fires. More effective than all other powders due to its ability to decrepitate (where the powder breaks up into smaller particles) in the flame zone creating a larger surface area for free radical inhibiton

AFFF (aqueous film forming foam), used on A and B fires and for vapor suppression. The most common type in portable extinguishers
AR-AFFF (Alcohol-resistant aqueous film forming foams), used on fuel fires containing alcohol. Forms a membrane between the fuel and the foam preventing the alcohol from breaking down the foam blanket.
FFFP (film forming fluoroprotein) contains naturally occurring proteins from animal fats to create a foam blanket that is more heat resistant then the synthetic AFFF foams.
Compressed Air Foam System (compressed air foam system) Any APW style extinguisher that is charged with a foam solution and pressurized with compressed air. Generally used to extend a water supply in wildland operations. Used on class A fires and with very dry foam on class B for vapor suppression.
Arctic Fire is a liquid fire extinguishing agent that emulsifies and cools heated materials quicker than water or ordinary foam. It is used extensively in the steel industry. Effective on classes A, B, and D.
FireAde, a foaming agent that emulsifies burning liquids and renders them non-flammable. It is able to cool heated material and surfaces similar to CAFS. Used on A and B (said to be effective on some class D hazards, although not recommended due to the fact that fireade still contains amounts of water which will react with some metal fires).

Water Cools burning material

APW (Air pressurized water) cools burning material by absorbing heat from burning material. Effective on only Class A fires, but has the advantage of being cheap, harmless, and relatively easy to clean up.
Water Mist uses a fine misting nozzle to break up a stream of deionized water to the point of not conducting electricity back to the operator. Class A and C rated. Used widely in Hospitals.

Water Additives

Wet Chemical (potassium acetate) extinguishes the fire by forming a crust over the burning oil(saponification). Generally class A and K (F in Europe) only.
Wetting Agents Detergent based additives used to break the surface tension of water & improve penetration of Class A fires. Enables a 3 litre water extinguisher to achieve the fire fighting capacity of a 9 litre plain water type

Halon (including Bromochlorodifluoromethane and Bromotrifluoromethane), a gaseous agent that inhibits the chemical reaction of the fire. Classes B:C for lower weight fire extinguishers (5lbs or less) and A:B:C for heavier weights (9-17lbs). Banned from new production, except for military use, as of January 1, 1994 as its properties contribute to ozone depletion and long atmospheric lifetime, usually 400 years. Halon was completely banned in Europe resulting in stockpiles being sent to the United States for reuse. Although production has been banned, the reuse is still permitted. Halon 1301 and 1211 are being replaced with new halons which have no ozone depletion properties and low atmospheric lifetimes, but are less effective.
CO2, a clean gaseous agent which displaces oxygen. Highest rating for 20 pound portable CO2 extinguishers is 10B:C. Not intended for Class A fires.
Mixtures of inert gases, including Inergen and Argonite.

Class D

Sodium Chloride/Bicrbonate Urea Graphite and Copper forms a crust over the burning metal and performs like a heat sink to draw heat away from the burning material, also smothers to a degree. Sodium Chloride Copper is used for lithium fires.Class D Fire Extinguisher

Basic Service: All types of extinguisher require a basic inspection annually to check weight, correct pressure (using a special tool, not just looking at the gauge) and for signs of damage or corrosion, cartridge extinguishers are opened up for internal inspection & check weighing of the cartridge, labels are checked for legibility, where possible dip tubes, hoses and mechanisms checked for clear free operation ;

Extended Service: Water, Wet Chemical, Foam & Powder extinguishers require every five years a more detailed examination including a test discharge of the extinguisher and recharging- on stored pressure extinguishers this is the only opportunity to internally inspect for damage/corrosion. by recharging fresh agent is used as they all have a shelf life, even water goes foul inside an extinguisher;

Overhaul: CO2 extinguishers, due to their high operating pressure, are subject to pressure vessel safety legislation and must be hydraulic pressure tested, inspected internally & externally and date stamped every 10 years. As it cannot be pressure tested a new valve is also fitted. If replacing any part of the extinguisher (valve, horn etc) with a part from another manufacturer then the extinguisher will lose it's fire rating. This may invalidate insurance.

References Automatic Sprinkler Protection - Goram Dana, S.B.

External links

Underwriters Laboratories tips
MSDS Sheets for hand held portable fire extinguishers
OSHA requirements
internationalsafe.org.uk/html/fsequip/exting.htm Fire Safety Advice Centre (UK)
Canada’s Strategy to Accelerate the Phase-Out of CFC and Halon
-Extinguisher-museum.com > Online museum about antique fire extinguishers and their history
Fire Extinguisher Information Site
Fire Safety Consultants
Automotive Fire Extinguisher Frequently Asked Questions
National Fire Help
Clean Agent Halon Fire Extinguishers
A simple Multiple Choice Help Guideline to identify the type of extinguisher needed
Aviation Fire Extinguishers
A Useful Fire Extinguisher Guide
Legal Requirements For Fire Extinguishers