Contents 1 Overview 2 Class A foams 3 Class B foams 3.1 Synthetic foams 3.2 Protein foams 4 Applications 5 History of fire-fighting foams 6 Environmental and health concerns 7 See also 8 References 9 Further reading

Overview[edit] Low-expansion foams such as AFFF, have an expansion rate less than 20 times are low-viscosity, mobile, and can quickly cover large areas. Medium-expansion foams have an expansion ratio of 20–100. High-expansion foams have an expansion ratio over 200–1000 and are suitable for enclosed spaces such as hangars, where quick filling is needed. Alcohol-resistant foams contain a polymer that forms a protective layer between the burning surface and the foam, preventing foam breakdown by alcohols in the burning fuel. Alcohol-resistant foams are used in fighting fires of fuels containing oxygenates, e.g. MTBE, or fires of liquids based on or containing polar solvents.

Class A foams[edit] A fire truck demonstrating Class A foam in a CAFS system Class A foams were developed in mid-1980s for fighting wildfires. Class A foams lower the surface tension of the water, which assists in the wetting and saturation of Class A fuels with water. This aids fire suppression and can prevent reignition.[2] Favorable experiences led to its acceptance for fighting other types of class A fires, including structure fires.[3]

Class B foams[edit] Class B foams are designed for class B fires — flammable liquids. The use of class A foam on a class B fire may yield unexpected results, as class A foams are not designed to contain the explosive vapors produced by flammable liquids. Class B foams have two major subtypes. Synthetic foams[edit] Synthetic foams are based on synthetic surfactants. They provide better flow and spreading over the surface of hydrocarbon-based liquids, for faster knockdown of flames. They have limited post-fire security and are toxic groundwater contaminants. Aqueous film forming foams (AFFF) are water-based and frequently contain hydrocarbon-based surfactant such as Sodium alkyl sulfate, and fluorosurfactant, such as fluorotelomers, perfluorooctanoic acid (PFOA), or perfluorooctanesulfonic acid (PFOS). Alcohol-resistant aqueous film-forming foams (AR-AFFF) are foams resistant to the action of alcohols and can form a protective film. Protein foams[edit] Protein foams contain natural proteins as the foaming agents. Unlike synthetic foams, protein foams are bio-degradable. They flow and spread slower, but provide a foam blanket that is more heat-resistant and more durable. Protein foams include regular protein foam(P), fluoroprotein foam(FP), film-forming fluoroprotein(FFFP),[4][full citation needed] alcohol-resistant fluoroprotein foam (AR-FP), and alcohol-resistant film-forming fluoroprotein (AR-FFFP). Protein foam from non-animal sources is preferred, because of the possible threats of biological contaminants such as prions.

Applications[edit] Every type of foam has its application. High-expansion foams are used when an enclosed space, such as a basement or hangar, must be quickly filled. Low-expansion foams are used on burning spills. AFFF is best for spills of jet fuels, FFFP is better for cases where the burning fuel can form deeper pools, and AR-AFFF is suitable for burning alcohols. The most flexibility is achieved by AR-AFFF or AR-FFFP. AR-AFFF must be used in areas where gasolines are blended with oxygenates, since the alcohols prevent the formation of the film between the FFFP foam and the gasoline, breaking down the foam, rendering the FFFP foam virtually useless.

History of fire-fighting foams[edit] This section contains content that is written like an advertisement. Please help improve it by removing promotional content and inappropriate external links, and by adding encyclopedic content written from a neutral point of view. (February 2015) (Learn how and when to remove this template message) Water has long been a universal agent for suppressing fires, but is not best in all cases. For example, water is typically ineffective on oil fires, and can be dangerous. Fire-fighting foams were a development for extinguishing oil fires. In 1902, a method of extinguishing flammable liquid fires by blanketing them with foam was introduced by Russian engineer and chemist Aleksandr Loran. Loran was a teacher in a school in Baku, the center of the Russian oil industry at that time. Impressed by large, difficult-to-extinguish oil fires that he had seen there, Loran tried to find a liquid substance that could deal effectively with them. He invented fire-fighting foam, which was successfully tested in experiments in 1902 and 1903.[1] In 1904 Loran patented his invention, and developed the first foam extinguisher the same year.[5] The original foam was a mixture of two powders and water produced in a foam generator. It was called chemical foam because of the chemical action to create it. In general, the powders used were sodium bicarbonate and aluminium sulfate, with small amounts of saponin or liquorice added to stabilise the bubbles. Hand-held foam extinguishers used the same two chemicals in solution. To actuate the extinguisher, a seal was broken and the unit inverted, allowing the liquids to mix and react. Chemical foam is a stable solution of small bubbles containing carbon dioxide with lower density than oil or water, and exhibits persistence for covering flat surfaces. Because it is lighter than the burning liquid, it flows freely over the liquid surface and extinguishes the fire by a smothering (removal/prevention of oxygen) action. Chemical foam is considered obsolete today because of the many containers of powder required, even for small fires. In the 1940s, Percy Lavon Julian developed an improved type of foam called Aerofoam. Using mechanical action, a liquid protein-based concentrate, made from soy protein, was mixed with water in either a proportioner or an aerating nozzle to form air bubbles with the free-flowing action. Its expansion ratio and ease of handling made it popular. Protein foam is easily contaminated by some flammable liquids, so care should be used so that the foam is applied only above the burning liquid. Protein foam has slow knockdown characteristics, but it is economical for post-fire security. In the early 1950s, high-expansion foam was conceived by Herbert Eisner in England at the Safety in Mines Research Establishment (now the Health & Safety Laboratory) to fight coal mine fires. Will B. Jamison, a Pennsylvania Mining Engineer, read about the proposed foam in 1952, requested more information about the idea. He proceeded to work with the US Bureau of Mines on the idea, testing 400 formulas until a suitable compound was found. In 1964, Walter Kidde & Company (now Kidde) bought the patents for high expansion foam.[6] In the 1960s, National Foam, Inc. developed fluoroprotein foam. Its active agent is a fluorinated surfactant that provides an oil-rejecting property to prevent contamination. In general, it is better than protein foam because its longer blanket life provides better safety when entry is required for rescue. Fluoroprotein foam has fast knockdown characteristics and it can also be used together with dry chemicals that destroy protein foam. In the mid-1960s, the US Navy developed aqueous film-forming foam (AFFF). This synthetic foam has a low viscosity and spreads rapidly across the surface of most hydrocarbon fuels. A water film forms beneath the foam, which cools the liquid fuel, stopping the formation of flammable vapors. This provides dramatic fire knockdown, an important factor in crash rescue fire fighting. In the early 1970s, National Foam, Inc. invented Alcohol-Resistant AFFF technology. AR-AFFF is a synthetic foam developed for both hydrocarbon and polar-solvent materials. Polar solvents are combustible liquids that destroy conventional fire-fighting foam. These solvents extract the water contained in the foam, breaking down the foam blanket. Hence, these fuels require an alcohol- or polar-solvent-resistant foam. Alcohol-resistant foam must be bounced off of a surface and allowed to flow down and over the liquid to form its membrane, compared to standard AFFF that can be sprayed directly onto the fire. In 1993, Baums Castorine of Rome, New York, developed a wetting agent with superior cooling properties that is effective on Class A, Class B, Class D as well as pressurized and 3-dimensional fires involving both hydro carbon based fuels and polar solvents such as alcohol and ethanol. This wetting agent, UL classified as a firefighting foam, was first marketed under the name of Pyrocool. The patented formula was awarded the 1998 Presidential Green Chemistry Award as a bio-degradable alternative to AFFF and AR-AFFF and other foams and wetting agents. It is now marketed under the name Novacool UEF (Universal Extinguishing Foam). Novacool UEF is applied at 0.4% for Class A fires and 0.5% for Class B and Class D fires. Novacool UEF is bio-degradable. In 2010, Orchidee International of France developed the first FFHPF, the highest performing fluorine-free foam. The foam has achieved a 97% degradability rating and is currently marketed by Orchidee International under the brand name "BluFoam". The foam is used at 3% both on hydrocarbon and polar solvent fires.

Environmental and health concerns[edit] Studies have shown that PFOS is a persistent, bioaccumulative, and toxic pollutant.[7][8] It was added to Annex B of the Stockholm Convention on Persistent Organic Pollutants in May 2009.[9] Regulations in the United States, Canada, European Union, Australia, and Japan have banned the new production of PFOS-based products, including fire fighting foams.[10] 3M phased out production of PFOS in 2002 due to toxicity concerns.[11] One study, published in 2015, found that firefighters were more likely to have fluorinated surfactants in their blood stream.[12] In 2016, the United States Air Force paid $4.3 million for a water treatment system for residents downstream of Peterson Air Force Base in Colorado.[13][14] In the United States, discharges of AFFF to surface waters are regulated by the U.S. Environmental Protection Agency (EPA) and Department of Defense, pursuant to the Clean Water Act.[15][16] In Australia, in 2015 a public safety announcement was issued by the New South Wales Environment Protection Authority following a water source contamination near RAAF Base Williamtown. Surface water, ground water and fish were reported to contain chemicals from firefighting foams that had been released by the local Royal Australia Air Force base prior to training protocol changes in 2008.[17] The residents of the area were advised to not consume any bore water, in addition to eggs and seafood from fauna exposed to the contaminated water.[18] The discovery led to the banning of all forms of fishing in the waters of Fullerton Cove until the beginning of October 2016.[19][20] As of 2017[update] the Department of Defence is dealing with two class action suits brought by those affected by contamination at Williamtown and at Army Aviation Centre Oakey.[21][22] Along with many airports and fire services, the Department of Defence is investigating possible contamination at 18 military sites across Australia.[23] At Williamtown, it is also conducting studies on the uptake and residual contamination in plants, chickens and eggs.[24] In December 2017, New Zealand's Minister for the Environment announced that higher than acceptable levels of PFOS and PFOA were found in groundwater at two Royal New Zealand Air Force bases, thought to be from historic use of firefighting foam containing the substances.[25] Residents residing near the airbases were told to drink bottled water until more extensive testing could be carried out.[26]

See also[edit] Compressed air foam system Foam path

References[edit] ^ a b Loran and the fire extinguisher Archived 27 July 2011 at the Wayback Machine. at (in Russian) ^ Phos Chek WD881 Brochure (PDF), Phos-Chek, archived from the original (PDF) on 5 January 2009, retrieved 5 December 2008  ^ "Class A Foam: Q & A". Archived from the original on 29 September 2005.  ^ Clause 1 BS 5306-6.1 ^ The history of fire extinguisher (in Russian) ^ Kearney, Paul (February 1966). "Shut the Windows!". Popular Mechanics. Vol. 125 no. 2. Hearst Magazines. pp. 136–139, 210–212. ISSN 0032-4558.  ^ OECD (2002). "Hazard Assessment of Perfluorooctane Sulfonate (PFOS) and its Salt". ENV/JM/RD(2002)17/FINAL (page 5).  ^ "How safe is firefighting foam?". FireRescue1. Retrieved 14 February 2017.  ^ Governments unite to step-up reduction on global DDT reliance and add nine new chemicals under international treaty. Geneva: Stockholm Convention Secretariat. 8 May 2008.  ^ "Fact Sheet on AFFF Fire Fighting Agents" (PDF). Arlington, VA: Fire Fighting Foam Coalition. 2017.  ^ Pelley, Janet. "Novel Fluorinated Surfactants Discovered In Firefighters' Blood – Chemical & Engineering News". Retrieved 19 November 2016.  ^ Rotander, Anna; Kärrman, Anna; Toms, Leisa-Maree L.; Kay, Margaret; Mueller, Jochen F.; Gómez Ramos, María José (2015). "Novel Fluorinated Surfactants Tentatively Identified in Firefighters Using Liquid Chromatography Quadrupole Time-of-Flight Tandem Mass Spectrometry and a Case-Control Approach". Environmental Science & Technology. 49 (4): 2434–2442. Bibcode:2015EnST...49.2434R. doi:10.1021/es503653n. ISSN 0013-936X.  ^ Finley, Bruce (10 May 2017). "Elevated cancer rates found south of Colorado Springs where water supplies contain toxic chemicals". Denver Post.  ^ "Tainted Water Near Colorado Bases Hints at Wider Safety Concerns". The New York Times. 26 July 2016. Retrieved 19 November 2016.  ^ U.S. Environmental Protection Agency (EPA), Washington, D.C. (12 April 2013). "Final National Pollutant Discharge Elimination System (NPDES) General Permit for Discharges Incidental to the Normal Operation of a Vessel." Federal Register. 78 FR 21938. ^ DOD and EPA (11 January 2017). "Uniform National Discharge Standards for Vessels of the Armed Forces-Phase II Batch One." Federal Register, 82 FR 3173. ^ "Department of Defence and NSW Government investigating chemicals around Williamtown RAAF Base". Media and information. Sydney: New South Wales Environment Protection Authority. 3 September 2015. Archived from the original on 12 September 2015.  ^ "Expert Panel recommends oyster ban end, further fish testing". Chief Scientist and Engineer. Sydney: New South Wales Government. 2 October 2015.  ^ Chris Ray (25 March 2016). "What's happening to the water in Williamtown?". The Sydney Morning Herald. Fairfax Media. Retrieved 15 August 2017.  ^ Tonkin, Emma; Cook, Carly (27 September 2016). "Fishing ban put in place due to contamination set to be lifted north of Newcastle". ABC News. Retrieved 25 October 2017.  ^ Daniel Burdon (21 April 2017). "Federal government considering phasing out toxic fire-fighting foam chemicals". The Canberra Times. Fairfax Media. Retrieved 15 August 2017.  ^ Gregory, Katherine (12 May 2017). "Williamtown residents angry over revelations Defence delayed information on contamination". ABC News (Australia). Retrieved 17 August 2017.  ^ "PFAS Investigation & Management Program". Department of Defence. Retrieved 16 August 2017.  ^ "PFAS Uptake Studies in Plants, Chicken & Eggs". Department of Defence. Retrieved 16 August 2017.  ^ "Agencies investigating potential water contamination". Radio New Zealand News. 7 December 2017. Retrieved 8 December 2017.  ^ "Defence force knew of possible contamination for months". Radio New Zealand News. 8 December 2017. Retrieved 8 December 2017.  Oke, Shawn, "Performance Characteristics of Wetting Agents." U.S. Federal Emergency Management Agency.

Further reading[edit] Associated Fire Protection 16 Sept. 2006 Clark, William E. Firefighting Principles and Practices. New Jersey: Saddle Brook, 1991. Hawthorne, Ed. Petroleum Liquids: Fire and Emergency Control. New Jersey: Englewood Cliffs, 1987 Riecher, Anton. Innovation: Ideas Advance Fire Fighting. ? Vol. 20 No. 6, Industrial Fire World Magazine. 5 October 2005 [1] Reney, Varghese Bio-degradable Fire Fighting Foams. Dubai:Journal, 2007. v t e Firefighting Personnel Fire captain Fire chief Fire marshal Fire police Handcrew Station officer Volunteer fire department Women in firefighting Facilities Fire department List of fire departments Fire lookout tower Fire station Apparatus Airport crash tender Fire bike Fire chief's vehicle Fire engine Firefighting apparatus HazMat Heavy rescue Light and air Quint Tender Wildland tender Wildland engine Equipment Bunker gear Escape chair Fire extinguisher Fire hose Fire hydrant Fire retardant Fire shelter Fireman's pole Fireman's switch Flame retardant Fog nozzle Halligan bar Hard suction hose Hazmat suit Heat detector Nomex PASS Proximity suit SCBA Siren Smoke detector Thermal imaging camera Terminology Dead man zone Deluge gun Draft Fire classes Fire control Fire safety Fire triangle Fireman's carry Firewall Flash fire Forcible entry Gaseous fire suppression Stop, drop and roll Structure fire Two-in, two-out Ventilation Miscellaneous Fire camp Fire engine red Fire photography Fire protection engineering Foam Geography of firefighting History of firefighting International Association of Fire Fighters International Firefighters' Day List of firefighting films Muster Saint Florian World Firefighters Games World Police and Fire Games Wildland firefighting Equipment and tactics Aerial firefighting Controlled burn Driptorch Fire hose Fire lookout tower Fire retardant Fire retardant gel Fire trail Firebreak Firefighting apparatus Firefighting foam Helicopter bucket Hose pack MAFFS Pulaski Wildland fire engine Wildland water tender Wildfire suppression equipment and personnel Personnel Engine crew Handcrew Helitack Hotshots Lookout Smokejumper By location Australia United States (California, Washington) Lists Glossary of wildfire terms List of wildfires Category Commons Retrieved from "" Categories: Russian inventionsFire suppression agentsFoamsHidden categories: Webarchive template wayback linksArticles with Russian-language external linksArticles needing more detailed referencesArticles with a promotional tone from February 2015All articles with a promotional toneArticles containing potentially dated statements from 2017All articles containing potentially dated statements

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