“IT’S A TRASHWOODPAPER,” says the narrator.
Class A fire extinguishers are efficient against fires involving paper, wood, fabrics, and polymers. Because of its propensity to smother fires in these types of materials, monoammonium phosphate is the primary chemical utilized to battle these fires.
Fire extinguishers with a Class B rating will put out flammable liquid fires. Cooking liquids, oil, gasoline, kerosene, or paint may have started in these fires. These types of flames can be put out with the help of two regularly used chemicals. The fire is effectively smothered by monoammonium phosphate, while sodium bicarbonate causes a chemical reaction that extinguishes the flames.
Class C fire extinguishers are suitable for flames in “live electrical equipment.” Because of their nonconductive qualities, monoammonium phosphate and sodium bicarbonate are typically employed to extinguish this sort of fire.
The classification of fire extinguishers is based on the type of fire. The A, B, and C rating system designates the kind of burning materials that each fire extinguisher can handle. The number in front of the A, B, or C denotes the magnitude of fire that the unit can put out.
The extinguisher must be capable of putting out the wood crib, wood panel, and excelsior (shredded paper) tests in order to receive a Class “A rating. The size of the material that can be extinguished repeatedly determines the rating.
The extinguisher must put out a burning liquid fire repeatedly to receive a class “B rating. The size of the fire determines the rating.
To receive a Class “C rating, the extinguisher and its contents must pass certain electrical conductivity tests in line with the UL711 and UL299 standards.
Water extinguishers are one of the most cost-effective ways to put out Class A fires, which are ones that are started by solid materials like paper, wood, or textiles.
Water extinguishers come in four varieties: water jet, water spray, water with additives, and water mist or fog.
- Water jet extinguishers cool the burning materials and prevent re-ignition by shooting a jet of water at them. They are not to be utilized near live electrical equipment.
- Water spray extinguishers use an extremely fine mist of water droplets that are surrounded by non-conductive air. Most water spray fire extinguishers have passed a 35 kV dielectric test, which implies they were tested at one meter with a 35,000 volt electrical source.
- Water extinguishers with additives are those that have foaming chemicals added to them. The water loses its natural surface tension, making it easier for it to seep into the burning materials. Because the chemicals are mixed into the water, a smaller extinguisher can achieve the same fire rating as a larger extinguisher that uses simply water.
- Extinguishers that use water mist, or fog, apply water in the form of mist, or fog, with much smaller droplets than a water spray extinguisher. The smaller the droplet, the larger its surface area in relation to its size, the faster it evaporates, absorbing heat energy more quickly. The disadvantage is that the smaller the droplet, the less it weights, and hence the weaker the water cloud.
On Class A and B fires, foam fire extinguishers can be used. They’re best for putting out liquid fires like gasoline or diesel, but they’re more versatile than water jet extinguishers because they can also put out solid fires like wood and paper. Liquid fires are extinguished by foam by sealing the liquid’s surface, preventing flammable vapour from reaching the air and starving the fire of fuel. They should not be used on free-flowing liquid fires.
Powder extinguishers are a versatile fire extinguisher that may be used to put out Class A, B, and C flames. They can also be used to put out flames caused by electrical equipment, but they do not cool the fire down enough for it to re-ignite. Powder extinguishers can also reduce visibility and cause breathing difficulties. They are normally not suggested for usage inside buildings unless there is no other option.
Carbon dioxide extinguishers (CO2)
Because CO2 extinguishers are safe to use on fires involving electrical apparatus, they are suitable for settings with a lot of electrical equipment, such as offices or server rooms. Unlike foam extinguishers, carbon dioxide extinguishers do not leave any residue. They can also be used to put out Class B fires, which are ones that involve flammable substances like paraffin or gasoline. CO2 extinguishers put out fires by suffocating them and cutting off their oxygen supply.
Wet chemical extinguishers
Class F fires involving cooking oils and fats, such as lard, olive oil, sunflower oil, maize oil, and butter, can be put out with wet chemical extinguishers. When used correctly, they are incredibly effective. The wet chemical quickly extinguishes the flames, cools the burning oil, and reacts chemically to generate a soap-like solution that seals the surface and prevents re-ignition. Although they are primarily intended for use on Class F fires, cooking oils, and deep fat fryers, they can also be used on other types of fires. They can also be used on Class A and Class B flames (wood, paper, and fabrics) (flammable liquids).
Fire blankets are designed to be used on hot oil fires, such as those found in frying pans or tiny deep fat fryers. They can also be used to put out a fire in someone’s clothing. They function by suffocating the fire, cutting off the oxygen supply that fuels it, and finally extinguishing it.
Is it possible to use a foam fire extinguisher to put out a fire on live electrical equipment?
Foam fire extinguishers can be used on both class A and class B fires, however they must be utilized in various ways depending on the type of fire. Please note that only di-electrically tested foam extinguishers should be used on or near live electrical equipment.
Only use an extinguisher to put out tiny fires. If the fire has spread, do not attempt to extinguish it; instead, escape quickly and alert others, then call the fire department. If you do decide to fight the fire, keep a safe distance and follow the recommendations below.
- Pull the safety pin (Fig. 3) to break the tamper seal as well.
- To start discharging the extinguisher, squeeze the lever.
- Where should the fire extinguisher nozzle be pointed?
- Flammable liquids: Aim the hose at a vertical surface near the fire rather than directly at it, as this could cause the burning liquid to splash and the fire to spread. Foam extinguishers create a layer of foam on the burning liquid’s surface, cutting off the fire’s oxygen supply and cooling the hot liquid.
- Electrical fires: You can use your foam extinguisher on active electrical fires if it has been tested to 35000 Volts (35kV). Maintain a safe distance of 1 meter.
- Solid combustibles: Aim the nozzle towards the fire’s base and move it around the area.
- Make sure the fire is completely out; the foam acts as a covering over the flames, preventing it from re-igniting.
For class B fires, these are the most popular types of fire extinguishers. However, because they are water-based, they can also be used to fight class A fires. Cream is the color of the label.
These fire extinguishers can be used to put out fires caused by flammable liquids like gasoline and paint, as well as organic materials like wood, coal, textiles, fabrics, cardboard, and paper.
This fire extinguisher should not be used to put out fires caused by combustible metals, kitchen fires, or electrical equipment fires.
These fire extinguishers function by cooling the fuel that is causing the flames. The fire is quenched when it is poured on a burning liquid because the foaming agent creates a barrier between the fuel and the flame.
Foam extinguishers are required in businesses and premises that are constructed of various organic materials or are likely to include such organic materials, such as warehouses, residential properties, hospitals, schools, offices, and structures that store flammable liquids. To put it another way, most structures require the use of foam or water extinguishers.
On floors that have been recognized as a fire risk for class A or class B, this type of extinguisher should be placed near the exits.
Water extinguishers are typically utilized in the event of a class A fire. Extinguishers, either foam or water, are required in most establishments. The label is brilliant red.
Fabrics, textiles, coal, wood, cardboard, and paper, among other organic materials, are extinguished with this type of extinguisher. Kitchen fires, fires created by combustible gas or liquids, and fires involving electrical equipment should not be utilized.
When it comes to the inner workings, a water extinguisher works by chilling the liquid, causing the burning fuel to burn at a slower rate until the flames are totally extinguished.
Buildings made of wood or organic materials, as well as company premises housing specific sorts of organic materials, such as hospitals, schools, offices, warehouses, and residential properties, are examples of places where these extinguishers are required. Foam or water extinguishers are required in the majority of the buildings.
On floors where a class A fire risk has been established, these extinguishers must be installed near the exit.
This type of extinguisher has a spray nozzle rather than a jet nozzle, which allows the water to cover a considerably larger surface area quickly, putting out the fire faster.
This sort of extinguisher has a different type of nozzle that is responsible for delivering extremely small, microscopic water particles, as the name implies. This extinguisher nozzle emits tiny particles that suffocate the fire while also keeping the person operating the extinguisher safe by forming a misty wall that reduces the sensation of heat.
Dry Powder Extinguishers
ABC extinguishers are conventional dry powder extinguishers that can be used to put out class A, class B, and class C fires. However, because the dry powder in the extinguisher is easily inhaled, they should not be utilized in confined settings. It’s also difficult to wipe up the residual residue after the fire has been extinguished. These can also be used to put out electrical equipment fires. There are also dry powder extinguishers designed to put out flames caused by combustible metals. The color of this type of extinguisher’s label is blue.
This fire extinguisher can be used to put out fires produced by a variety of organic materials, such as wood, coal, textiles, fabrics, cardboard, and paper. It can be used to put out flames caused by flammable liquids like gasoline and paint, as well as flammable gases like acetylene and liquefied petroleum gas. This fire extinguisher can also be used to put out fires involving electrical equipment up to 1000 V.
There are special dry powder extinguishers, as indicated above, however they are normally used solely on combustible metals like magnesium and titanium.
This type of fire extinguisher should not be used to put out fires involving electrical equipment with a voltage greater than 1000 volts or fires with frying oil.
This sort of fire extinguisher is necessary in places like garage forecourts, welding and flame cutting shops, and buildings with big boiler rooms that use flammable gases for chemical processes.
Wet Chemical Extinguishers
Class F fires involving frying oils and fats are extinguished with wet chemical extinguishers. They can also be used to put out Class A flames, though this is more commonly done with a foam or water extinguisher.
A wet chemical extinguisher can be used to put out fires involving frying oils and fats (a Class F fire). On a Class A fire, a wet chemical fire extinguisher can be used, but foam or water extinguishers are more popular. Extinguishers made of dry powder smother fires by creating a barrier between the fuel and the source of oxygen. Yellow is the color of this type of extinguisher’s label.
Fires generated by organic materials such as wood, coal, textiles, fabrics, cardboard, and paper can also be extinguished with wet chemical extinguishers.
In commercial kitchens and canteens, this type of fire extinguisher must be placed close to the source of the fire risk.
Carbon Dioxide (CO2) Extinguishers
CO2 extinguishers are primarily used to combat electrical fires and are the most common form of fire extinguisher found in computer server rooms. They can also extinguish Class B flames. CO2 extinguishers put out fires by removing the oxygen that they require to burn. The label on this type of extinguisher is black.
CO2 extinguishers should be placed near the source of a fire hazard or near fire exits, such as in offices, kitchens, server rooms, and other locations where electrical appliances and equipment are used.
Is it possible to use foam extinguishers to put out electrical or metal fires?
All commercial and residential buildings are required to have fire extinguishers. They’re used to put out tiny fires or control them. Extinguishers must be properly placed and easily accessible in the event of an emergency.
However, in the stress of a fire, knowing which fire extinguisher to use on a fire might be challenging. Water, powder, foam, CO2, and wet chemical are the five primary types of extinguishers. Depending on the sort of fire that has erupted, each extinguisher has a different application. Here’s a rundown of the main types of extinguishers and how to use them.
A white label that says “water fire extinguisher” is frequently attached to a water fire extinguisher “WATER, WATER, WATER. Water fire extinguishers have a class A rating and can be used to put out fires made of wood, paper, or cloth. Water fire extinguishers are not ideal for electrical fires since water is a conductor, and if used on this type of fire, you risk electrocution. They are also not ideal for combustible liquid or metal fires because they will not put out the flames. A water extinguisher used to put out a flammable liquid fire may spread the liquid about, potentially causing more harm than good and exacerbating the fire. Water extinguishers are advised for warehouses, paper mills, and storage facilities that contain huge amounts of combustible materials.
A blue label that states “powder fire extinguisher” can be used to identify a powder fire extinguisher “POWDER, TO BE EXACT. Powder extinguishers can be used to put out fires in wood, paper, and cloth. They can also be used to extinguish combustible liquid, gaseous, and electrical fires. Powder extinguishers CANNOT be used to put out flames involving cooking oil (such as pan fires), electrical equipment with a voltage more than 1000 volts, fires in enclosed places, or fires with combustible metals ” (unless it is a “specialist dry powder extinguisher). Powder extinguishers are indicated for large-scale outdoor fires involving chemicals, fuels, or even cars. They’re ideal for huge commercial boiler rooms, large workshops, and hazardous liquid storage facilities.
A cream-colored label that reads “Foam Extinguisher” distinguishes foam extinguishers “FOAM is an acronym for foam. These can be used to put out fires made of wood, paper, or fabric. Foam extinguishers can be used to put out flammable liquid flames as well. They CANNOT be used on electrical or flammable metal fires since the extinguisher may worsen the situation. Foam extinguishers are appropriate for a variety of fire-prone environments, such as offices, factories, warehouses, and hotels.
A black label saying CO2 fire extinguisher can be spotted “CO2 is a greenhouse gas. CO2 fire extinguishers are safe to use on electrical and flammable liquid fires. They should not be used to put out fires made of wood, paper, or fabric. They’re also not recommended for cooking fires involving oil and grease (such as chip pan fires), as the extinguisher may end up spraying the flames into the surrounding area. It is also not suggested that the user hold the extinguisher by the horn since CO2 gets extremely chilly when it evaporates into a gaseous state and can cause cold burns. CO2 extinguishers, unlike foam and water extinguishers, do not cool the fire; instead, they replace the oxygen around the fire with Carbon Dioxide, rendering the fire unburnable. CO2 extinguishers should be required in places where there is a risk of electrical fire, such as offices, schools, and shops.
A yellow label that indicates “wet chemical fire extinguisher” can be used to identify a wet chemical fire extinguisher “Chemicals that are moist. Wood, paper, and fabric fires can all be put out with wet chemical extinguishers. They’re also safe to use in the kitchen and in deep fat fryer fires. They should not be used to put out electrical, flammable liquid, or gaseous flames since they may cause the fire to spread. Because they emit hazardous fumes that should not be breathed in, wet chemical extinguishers should only be used in well-ventilated places. For any establishment with a professional kitchen and deep fat fryer, such as restaurants, burger bars, and hotels, wet chemical extinguishers are required.
What are the four different kinds of fire extinguishers?
Fire extinguishers are divided into four categories: A, B, C, and D, each of which can put out a particular sort of fire.
- Extinguishers classified as Class A will put out fires in common combustibles including wood and paper.
- Extinguishers classified as Class B are intended for use with flammable liquids such as grease, gasoline, and oil.
- Only use Class C extinguishers on fires that are electrically powered.
- Extinguishers classified as Class D are intended for use on flammable metals.
Multipurpose extinguishers can put out a variety of flames and are labeled with many classes, such as A-B, B-C, or A-B-C.
What is the purpose of a foam fire extinguisher?
What is the purpose of a foam fire extinguisher? AFFF (Aqueous Film Forming Foams) Foam Fire Extinguishers are effective against both solid and liquid fires, such as burning gasoline. The foam can either creep over the burning liquid or seep into burning items like settees.
If a carbon dioxide extinguisher isn’t accessible, what form of fire extinguisher do you use to put out an electrical fire?
Carbon dioxide has the benefit of leaving no residue once the fire has been extinguished. Extinguishers for Class A or B fires can be utilized when electrical equipment is not powered.