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Fire retardant

February 16, 2024

This article is about substances used to fight structure fires and wildfires. For chemical retardants used in textiles and plastics, see Flame retardant.

A fire retardant is a substance that is used to slow down or stop the spread of fire or reduce its intensity. This is commonly accomplished by chemical reactions that reduce the flammability of fuels or delay their combustion.[1][2] Fire retardants may also cool the fuel through physical action or endothermic chemical reactions. Fire retardants are available as powder, to be mixed with water, as fire-fighting foams and fire-retardant gels. Fire retardants are also available as coatings or sprays to be applied to an object.[3]

Fire retardant dispersed aerially onto brush adjoining a firebreak to contain the Tumbleweed Fire in California, in July 2021

Fire retardants are commonly used in fire fighting, where they may be applied aerially or from the ground.

Principles of operation edit

In general, fire retardants reduce the flammability of materials by either blocking the fire physically or by initiating a chemical reaction that stops the fire.

Physical action edit

There are several ways in which the combustion process can be retarded by physical action:

  • By cooling: Some chemical reactions actually cool the material down.
  • By forming a protective layer that prevents the underlying material from igniting.
  • By dilution: Some retardants release water and/or carbon dioxide while burning. This may dilute the radicals in the flame enough for it to go out.

Commonly used fire retardant additives include mixtures of huntite and hydromagnesite, aluminium hydroxide, and magnesium hydroxide. When heated, aluminium hydroxide dehydrates to form aluminum oxide (alumina, Al2O3), releasing water vapor in the process. This reaction absorbs a great deal of heat, cooling the material into which it is incorporated. Additionally, the residue of alumina forms a protective layer on the material's surface. Mixtures of huntite and hydromagnesite work in a similar manner. They endothermically decompose releasing both water and carbon dioxide,[4][5] giving fire retardant properties[6][7][8] to the materials in which they are incorporated.

Chemical action edit

  • Reactions in the gas phase: chemical reactions in the flame (i.e. gas phase) can be interrupted by fire retardants. Generally, these retardants are organic halides (haloalkanes) such as Halon and PhostrEx. The chemicals used in these types of retardants are often toxic.
    Further information: Flame retardant § Gas phase radical quenching
  • Reaction in the solid phase: some retardants break down polymers so they melt and flow away from the flame. Although this allows some materials to pass certain flammability tests[which?], it is not known whether fire safety is truly improved by the production of flammable plastic droplets.
  • Char Formation: For carbon-based fuels, solid phase flame retardants cause a layer of carbonaceous char to form on the fuel surface. This char layer is much harder to burn and prevents further burning.[9][10]
  • Intumescents: These types of retardant materials incorporate chemicals which cause swelling behind the protective char layer, providing much better insulation. They are available as plastic additives, and as paints for protecting wooden buildings or steel structures.

Uses edit

 
Portable fire extinguisher

Fire extinguishers edit

Class A foam is used as a fire retardant in 2.5 gallon [APW] and [CAFS] extinguishers to contain incipient brush fires and grass fires by creating a fire break. Other chemical retardants are capable of rendering class A material and Class B fuels non-flammable and extinguishing class A, class B, and some class D fires.[citation needed] Fire retardant slurries dropped from aircraft are normally applied ahead of a wildfire to prevent ignition, while fire suppression agents are used to extinguish fires.

Surface coating edit

Objects may be coated with fire retardants. For example, Christmas trees are sprayed with retardants, as a tree dries out it becomes very flammable and a fire-hazard.

Steel structures have a fire retardant coating around columns and beams to prevent structural elements from weakening during a fire.

Dormitories in the US are also considering using these products.[citation needed] Since 2000, 109 people have died in fires in dormitories or off-campus student housing across the nation, according to Campus Firewatch, an online newsletter.[when?] Campus Firewatch's publisher, Ed Comeau, said a January 2000 fire at Seton Hall University in New Jersey drew attention to the perils of fire on campus. A common area in a Seton Hall dorm caught fire after two students ignited a banner from a bulletin board. The fire quickly spread to furniture and killed three students and injured 58 others.[11]

Forest-fire fighting edit

 
A MAFFS-equipped Air National Guard C-130 Hercules drops fire retardant on wildfires in Southern California
 
Red-dyed line of fire retardant stands out clearly on this Arizona hill, to control the Alambre Fire

Early fire retardants were mixtures of water and thickening agents, and later included borates[12] and ammonium phosphates.[citation needed]

Generally, fire retardants are dropped from aircraft or applied by ground crews around a wildfire's edges in an effort to contain its spread. This allows ground crews time to work to extinguish the fire. However, when needed, retardant can also be dropped directly onto flames to cool the fire and reduce flame length.[13]

Aerial firefighting edit

See also: Aerial firefighting

Aerial firefighting is a method to combat wildfires using aircraft. The types of aircraft used include fixed-wing aircraft and helicopters. Smokejumpers and rappellers are also classified as aerial firefighters, being delivered by parachute from a variety of fixed-wing aircraft, or rappelling from helicopters. Chemicals used to fight fires may include water, water enhancers, or specially-formulated fire retardants.[14]

Textiles edit

Main articles: Flame retardant and Fire-retardant fabrics

Materials edit

Wildfire retardants edit

Fire retardants applied to wildfires are usually a mixture of water and chemicals designed to wet the area as well as chemically retard a fire's progression through vegetation. Typically it is colored[15] so that the application area can be seen from the air. Fire retardant gel based retardants which meet NFPA Standard 1150 are also being used in service. These are dyed other colors to differentiate them from the traditional red retardant. The gels and their dyes are designed to biodegrade naturally.[16]

Any fire retardant approved for use against wildfires on US Federal lands must be included on the United States Forest Service Qualified Products List.[17] To be added to that list, the product must be tested by Wildland Fire Chemical Systems, a division of the National Technology and Development Program, a process that can take up to two years.[18] Phos-Chek is a brand of long-term retardant currently approved for wildland fire use.[19] Phos-Chek also has a consumer-based fire retardant spray called Wildfire Home Defense that is effective immediately after application and that remains effective until it is washed off with heavy water levels. It is designed to be applied to fuel beds around homes and outbuildings to create a firebreak in the fuels leading up to each structure.[20] Ember Bloc is another consumer-based fire retardant gel that can be applied to the exterior of one's house and nearby structures to help protect against both embers and flames in a wildfire. It has a unique ability to cling onto the side of a house to withstand high heat and windy conditions.[21]

Environmental concerns edit

Forest fire retardants that are used are generally considered non-toxic,[22] but even less-toxic compounds carry some risk when organisms are exposed to large amounts.[23] Fire retardants used in firefighting can be toxic to fish and wildlife as well as firefighters[24] by releasing dioxins and furans when halogenated fire retardants are burned during fires,[25] and drops within 300 feet of bodies of water are generally prohibited unless lives or property are directly threatened.[26] The US Forest Service is the governing agency that conducts research and monitors the effect of fire retardants on wildland systems in the US.[27][28]

A study published in June 2014 found that marine bacteria have the ability to manufacture a non-synthetic source of chemically identical polybrominated diphenyl ethers (PBDEs). These chemicals are used as flame retardant, but are known to be toxic to the environment.[29]

Potential risk and health concerns edit

Risks edit

Most chemical fire retardants are organic halides (haloalkanes) such as Halon and PhostrEx, which are proven to be toxic. During 1980s, the most commonly used fire retardant material was penta-bromodiphenyl ether. It was banned by the Government due to its potential health and environment concerns. It was then replaced by chlorinated tris, chloroalkyl phosphates, halogenated aryl esters, and tetrabromophthalate diol diester, which later were proven by an EPA study that they contained mutagens that could be absorbed into children's bodies.[30]

Studies have shown that a small percentage of the population may have an allergy towards the chemical substance used as fire retardant.[31] Studies have also shown that a drop of the retardant chemical directly into a stream may cause a sufficient ammonia concentration in the water, which is lethal to fish and other aquatic organisms.[32] If the amount is large enough, there is a risk that it could lead to lethal consequences towards humans.

Health concerns edit

Long-term exposure to these chemicals are likely to develop cancer or skin disease for fire fighters, and the potential contamination towards the environment will be another safety concern.[33] Many of these chemicals are now recognized as global contaminants and are associated with adverse health effects in animals and humans, including endocrine and thyroid disruption, immunotoxicity, reproductive toxicity, cancer, and adverse effects on fetal and child development and neurologic function.[34]

One of the most common way to spread fire retardant is through aerial firefighting, which means that there are chances that these toxic chemicals will contaminate the soil and water system, and then find their way into human body. This will lead to the likelihood of developing long-term health issues, such as respiratory disease or other risky health concerns.[35]

Another notable health concern is that fire-suppressant foams are toxic in standardized soft and hard water, and it is likely that water creatures will be infected. If they were to be consumed by humans, there is a great chance that these toxicities will be transferred into human body.[36]

See also edit

References edit

  1. ^ . Blm.gov. 2008-06-18. Archived from the original on 2014-05-08. Retrieved 2012-08-04.
  2. ^ Coford Glossary "Fire Retardant" February 8, 2009, at the Wayback Machine
  3. ^ "Zinsser Glossary". Zinsser.com. Retrieved 2012-08-04.
  4. ^ Hollingbery, LA; Hull TR (2010). "The Thermal Decomposition of Huntite and Hydromagnesite - A Review". Thermochimica Acta. 509 (1–2): 1–11. doi:10.1016/j.tca.2010.06.012.
  5. ^ Hollingbery, LA; Hull TR (2012). "The Thermal Decomposition of Natural Mixtures of Huntite and Hydromagnesite". Thermochimica Acta. 528: 45–52. doi:10.1016/j.tca.2011.11.002.
  6. ^ Hollingbery, LA; Hull TR (2010). "The Fire Retardant Behaviour of Huntite and Hydromagnesite - A Review". Polymer Degradation and Stability. 95 (12): 2213–2225. doi:10.1016/j.polymdegradstab.2010.08.019.
  7. ^ Hollingbery, LA; Hull TR (2012). "The Fire Retardant Effects of Huntite in Natural Mixtures with Hydromagnesite". Polymer Degradation and Stability. 97 (4): 504–512. doi:10.1016/j.polymdegradstab.2012.01.024.
  8. ^ Hull, TR; Witkowski A; Hollingbery LA (2011). "Fire Retardant Action of Mineral Fillers". Polymer Degradation and Stability. 96 (8): 1462–1469. doi:10.1016/j.polymdegradstab.2011.05.006. S2CID 96208830.
  9. ^ (PDF). Archived from the original (PDF) on 2011-07-15. Retrieved 2008-11-20.
  10. ^ "How do flame retardants work?". European Chemical Industry Council (CEFIC) and European Flame Retardants Association (EFRA). Retrieved 12 Feb 2010.
  11. ^ Amy Farnsworth (2007-08-06). "New coatings cut risk of a dorm fire". The Boston Globe.
  12. ^ US 2858895, Connell, George A. (inventor), "Methods and compositions for controlling fires", published November 4, 1958 .
  13. ^ (PDF). National Interagency Fire Center. Archived from the original (PDF) on 2007-09-28. Retrieved 2007-08-31.
  14. ^ "USDA Forest Service Wildland Fire Chemicals". Retrieved 2008-11-13.
  15. ^ US 6676858, Vandersall, Howard L. & Kegeler, Gary H., "Colorant liquid, method of use, and wildfire retardant liquids containing the same", published January 13, 2004 .
  16. ^ "New fire retardant gel developed that can remain effective for months". 4 October 2019. Retrieved 2020-10-05.
  17. ^ Qualified Products List
  18. ^ "Long-Term Fire Retardants - National Technology and Development Program - USDA Forest Service". www.fs.fed.us. Retrieved 2022-01-06.
  19. ^ "Wildland Fire Chemical Product Information". Retrieved 2008-11-13.
  20. ^ "Phos-Chek Wildfire Home Defense FAQs". Retrieved 2019-09-13.
  21. ^ "Ember bloc fire gel fact sheet / Technical specs". Retrieved 2020-10-05.
  22. ^ "Phos-Chek MSDS" (PDF). Retrieved 2008-11-14.[permanent dead link]
  23. ^ Bell, Tina; Tolhurst, Kevin; Wouters, Michael (16 May 2005). "Bell, T., Tolhurst, K., and Wouters, M. Effects of the fire retardant Phos-Chek on vegetation in eastern Australian heathlands. International Journal of Wildland Fire. 14(2) 199–211". International Journal of Wildland Fire. 14 (2): 199–211. doi:10.1071/WF04024. S2CID 129368588.
  24. ^ . Greensciencepolicy.org. Archived from the original on 2012-02-20. Retrieved 2012-08-04.
  25. ^ "Effect of Fire Retardant on Water Quality" (PDF). Retrieved 2008-11-17.
  26. ^ William Yardley (November 15, 2008). "In Fighting Wildfires, Concerns About Chemicals". The New York Times. Retrieved 2008-11-26.
  27. ^ "USDA Forest Service Wildland Fire Chemical Systems". Retrieved 2008-11-13.
  28. ^ "Wildland Fire Chemical Products Toxicity and Environmental Concerns" (PDF). Retrieved 2008-11-13.
  29. ^ "Marine bacteria are natural source of chemical fire retardants". phys.org. June 29, 2014. Retrieved July 21, 2017.
  30. ^ Lorber, Matthew (January 2008). "Exposure of Americans to polybrominated diphenyl ethers". Journal of Exposure Science & Environmental Epidemiology. 18 (1): 2–19. doi:10.1038/sj.jes.7500572. ISSN 1559-064X. PMID 17426733. S2CID 27473105.
  31. ^ Bakker, Martine I.; de Winter-Sorkina, Renata; de Mul, Anika; Boon, Polly E.; van Donkersgoed, Gerda; van Klaveren, Jacob D.; Baumann, Bert A.; Hijman, Willie C.; van Leeuwen, Stefan P. J.; de Boer, Jacob; Zeilmaker, Marco J. (February 2008). "Dietary intake and risk evaluation of polybrominated diphenyl ethers in The Netherlands". Molecular Nutrition & Food Research. 52 (2): 204–216. doi:10.1002/mnfr.200700112. ISSN 1613-4133. PMID 18058856.
  32. ^ Dietrich, Joseph P.; Myers, Mark S.; Strickland, Stacy A.; Van Gaest, Ahna; Arkoosh, Mary R. (January 2013). "Toxicity of forest fire retardant chemicals to stream-type chinook salmon undergoing parr-smolt transformation". Environmental Toxicology and Chemistry. 32 (1): 236–247. doi:10.1002/etc.2052. ISSN 1552-8618. PMID 23161484. S2CID 5240730.
  33. ^ Shaw, Susan D.; Blum, Arlene; Weber, Roland; Kannan, Kurunthachalam; Rich, David; Lucas, Donald; Koshland, Catherine P.; Dobraca, Dina; Hanson, Sarah; Birnbaum, Linda S. (October 2010). "Halogenated flame retardants: do the fire safety benefits justify the risks?". Reviews on Environmental Health. 25 (4): 261–305. doi:10.1515/reveh.2010.25.4.261. ISSN 0048-7554. PMID 21268442. S2CID 20573319.
  34. ^ Shaw, Susan D.; Blum, Arlene; Weber, Roland; Kannan, Kurunthachalam; Rich, David; Lucas, Donald; Koshland, Catherine P.; Dobraca, Dina; Hanson, Sarah; Birnbaum, Linda S. (October 2010). "Halogenated flame retardants: do the fire safety benefits justify the risks?". Reviews on Environmental Health. 25 (4): 261–305. doi:10.1515/reveh.2010.25.4.261. ISSN 0048-7554. PMID 21268442. S2CID 20573319.
  35. ^ Sugeng, Eva J.; de Cock, Marijke; Schoonmade, Linda J.; van de Bor, Margot (October 2017). "Toddler exposure to flame retardant chemicals: Magnitude, health concern and potential risk- or protective factors of exposure: Observational studies summarized in a systematic review". Chemosphere. 184: 820–831. Bibcode:2017Chmsp.184..820S. doi:10.1016/j.chemosphere.2017.06.041. ISSN 1879-1298. PMID 28645086.
  36. ^ Gaikowski, M. P.; Hamilton, S. J.; Buhl, K. J.; McDonald, S. F.; Summers, C. H. (August 1996). "Acute toxicity of firefighting chemical formulations to four life stages of fathead minnow". Ecotoxicology and Environmental Safety. 34 (3): 252–263. doi:10.1006/eesa.1996.0070. ISSN 0147-6513. PMID 8812194.

External links edit

  • Fire Management Notes (1989)
  • National Fire Protection Association
  • Defense Fire Protection Association
  • Influence of the fire retardant, ammonium polyphosphate, on the thermal degradation of poly(methyl methacrylate)
  • Fire retardant Glass 2014-12-17 at the Wayback Machine – UL9 Certified Fire Resistant glass in USA

February 16, 2024
fire, retardant, this, article, about, substances, used, fight, structure, fires, wildfires, chemical, retardants, used, textiles, plastics, flame, retardant, this, article, multiple, issues, please, help, improve, discuss, these, issues, talk, page, learn, wh. This article is about substances used to fight structure fires and wildfires For chemical retardants used in textiles and plastics see Flame retardant This article has multiple issues Please help improve it or discuss these issues on the talk page Learn how and when to remove these template messages The examples and perspective in this article may not represent a worldwide view of the subject You may improve this article discuss the issue on the talk page or create a new article as appropriate September 2011 Learn how and when to remove this template message This article possibly contains original research Please improve it by verifying the claims made and adding inline citations Statements consisting only of original research should be removed November 2012 Learn how and when to remove this template message This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Fire retardant news newspapers books scholar JSTOR July 2017 Learn how and when to remove this template message Learn how and when to remove this template message A fire retardant is a substance that is used to slow down or stop the spread of fire or reduce its intensity This is commonly accomplished by chemical reactions that reduce the flammability of fuels or delay their combustion 1 2 Fire retardants may also cool the fuel through physical action or endothermic chemical reactions Fire retardants are available as powder to be mixed with water as fire fighting foams and fire retardant gels Fire retardants are also available as coatings or sprays to be applied to an object 3 Fire retardant dispersed aerially onto brush adjoining a firebreak to contain the Tumbleweed Fire in California in July 2021Fire retardants are commonly used in fire fighting where they may be applied aerially or from the ground Contents 1 Principles of operation 1 1 Physical action 1 2 Chemical action 2 Uses 2 1 Fire extinguishers 2 2 Surface coating 2 3 Forest fire fighting 2 3 1 Aerial firefighting 2 4 Textiles 3 Materials 3 1 Wildfire retardants 4 Environmental concerns 5 Potential risk and health concerns 5 1 Risks 5 2 Health concerns 6 See also 7 References 8 External linksPrinciples of operation editIn general fire retardants reduce the flammability of materials by either blocking the fire physically or by initiating a chemical reaction that stops the fire Physical action edit There are several ways in which the combustion process can be retarded by physical action By cooling Some chemical reactions actually cool the material down By forming a protective layer that prevents the underlying material from igniting By dilution Some retardants release water and or carbon dioxide while burning This may dilute the radicals in the flame enough for it to go out Commonly used fire retardant additives include mixtures of huntite and hydromagnesite aluminium hydroxide and magnesium hydroxide When heated aluminium hydroxide dehydrates to form aluminum oxide alumina Al2O3 releasing water vapor in the process This reaction absorbs a great deal of heat cooling the material into which it is incorporated Additionally the residue of alumina forms a protective layer on the material s surface Mixtures of huntite and hydromagnesite work in a similar manner They endothermically decompose releasing both water and carbon dioxide 4 5 giving fire retardant properties 6 7 8 to the materials in which they are incorporated Chemical action edit Reactions in the gas phase chemical reactions in the flame i e gas phase can be interrupted by fire retardants Generally these retardants are organic halides haloalkanes such as Halon and PhostrEx The chemicals used in these types of retardants are often toxic Further information Flame retardant Gas phase radical quenching Reaction in the solid phase some retardants break down polymers so they melt and flow away from the flame Although this allows some materials to pass certain flammability tests which it is not known whether fire safety is truly improved by the production of flammable plastic droplets Char Formation For carbon based fuels solid phase flame retardants cause a layer of carbonaceous char to form on the fuel surface This char layer is much harder to burn and prevents further burning 9 10 Intumescents These types of retardant materials incorporate chemicals which cause swelling behind the protective char layer providing much better insulation They are available as plastic additives and as paints for protecting wooden buildings or steel structures Uses edit nbsp Portable fire extinguisherFire extinguishers edit Class A foam is used as a fire retardant in 2 5 gallon APW and CAFS extinguishers to contain incipient brush fires and grass fires by creating a fire break Other chemical retardants are capable of rendering class A material and Class B fuels non flammable and extinguishing class A class B and some class D fires citation needed Fire retardant slurries dropped from aircraft are normally applied ahead of a wildfire to prevent ignition while fire suppression agents are used to extinguish fires Surface coating edit Objects may be coated with fire retardants For example Christmas trees are sprayed with retardants as a tree dries out it becomes very flammable and a fire hazard Steel structures have a fire retardant coating around columns and beams to prevent structural elements from weakening during a fire Dormitories in the US are also considering using these products citation needed Since 2000 109 people have died in fires in dormitories or off campus student housing across the nation according to Campus Firewatch an online newsletter when Campus Firewatch s publisher Ed Comeau said a January 2000 fire at Seton Hall University in New Jersey drew attention to the perils of fire on campus A common area in a Seton Hall dorm caught fire after two students ignited a banner from a bulletin board The fire quickly spread to furniture and killed three students and injured 58 others 11 Forest fire fighting edit nbsp A MAFFS equipped Air National Guard C 130 Hercules drops fire retardant on wildfires in Southern California nbsp Red dyed line of fire retardant stands out clearly on this Arizona hill to control the Alambre FireEarly fire retardants were mixtures of water and thickening agents and later included borates 12 and ammonium phosphates citation needed Generally fire retardants are dropped from aircraft or applied by ground crews around a wildfire s edges in an effort to contain its spread This allows ground crews time to work to extinguish the fire However when needed retardant can also be dropped directly onto flames to cool the fire and reduce flame length 13 Aerial firefighting edit See also Aerial firefighting Aerial firefighting is a method to combat wildfires using aircraft The types of aircraft used include fixed wing aircraft and helicopters Smokejumpers and rappellers are also classified as aerial firefighters being delivered by parachute from a variety of fixed wing aircraft or rappelling from helicopters Chemicals used to fight fires may include water water enhancers or specially formulated fire retardants 14 Textiles edit Main articles Flame retardant and Fire retardant fabricsMaterials editWildfire retardants edit Fire retardants applied to wildfires are usually a mixture of water and chemicals designed to wet the area as well as chemically retard a fire s progression through vegetation Typically it is colored 15 so that the application area can be seen from the air Fire retardant gel based retardants which meet NFPA Standard 1150 are also being used in service These are dyed other colors to differentiate them from the traditional red retardant The gels and their dyes are designed to biodegrade naturally 16 Any fire retardant approved for use against wildfires on US Federal lands must be included on the United States Forest Service Qualified Products List 17 To be added to that list the product must be tested by Wildland Fire Chemical Systems a division of the National Technology and Development Program a process that can take up to two years 18 Phos Chek is a brand of long term retardant currently approved for wildland fire use 19 Phos Chek also has a consumer based fire retardant spray called Wildfire Home Defense that is effective immediately after application and that remains effective until it is washed off with heavy water levels It is designed to be applied to fuel beds around homes and outbuildings to create a firebreak in the fuels leading up to each structure 20 Ember Bloc is another consumer based fire retardant gel that can be applied to the exterior of one s house and nearby structures to help protect against both embers and flames in a wildfire It has a unique ability to cling onto the side of a house to withstand high heat and windy conditions 21 Environmental concerns editForest fire retardants that are used are generally considered non toxic 22 but even less toxic compounds carry some risk when organisms are exposed to large amounts 23 Fire retardants used in firefighting can be toxic to fish and wildlife as well as firefighters 24 by releasing dioxins and furans when halogenated fire retardants are burned during fires 25 and drops within 300 feet of bodies of water are generally prohibited unless lives or property are directly threatened 26 The US Forest Service is the governing agency that conducts research and monitors the effect of fire retardants on wildland systems in the US 27 28 A study published in June 2014 found that marine bacteria have the ability to manufacture a non synthetic source of chemically identical polybrominated diphenyl ethers PBDEs These chemicals are used as flame retardant but are known to be toxic to the environment 29 Potential risk and health concerns editRisks edit Most chemical fire retardants are organic halides haloalkanes such as Halon and PhostrEx which are proven to be toxic During 1980s the most commonly used fire retardant material was penta bromodiphenyl ether It was banned by the Government due to its potential health and environment concerns It was then replaced by chlorinated tris chloroalkyl phosphates halogenated aryl esters and tetrabromophthalate diol diester which later were proven by an EPA study that they contained mutagens that could be absorbed into children s bodies 30 Studies have shown that a small percentage of the population may have an allergy towards the chemical substance used as fire retardant 31 Studies have also shown that a drop of the retardant chemical directly into a stream may cause a sufficient ammonia concentration in the water which is lethal to fish and other aquatic organisms 32 If the amount is large enough there is a risk that it could lead to lethal consequences towards humans Health concerns edit Long term exposure to these chemicals are likely to develop cancer or skin disease for fire fighters and the potential contamination towards the environment will be another safety concern 33 Many of these chemicals are now recognized as global contaminants and are associated with adverse health effects in animals and humans including endocrine and thyroid disruption immunotoxicity reproductive toxicity cancer and adverse effects on fetal and child development and neurologic function 34 One of the most common way to spread fire retardant is through aerial firefighting which means that there are chances that these toxic chemicals will contaminate the soil and water system and then find their way into human body This will lead to the likelihood of developing long term health issues such as respiratory disease or other risky health concerns 35 Another notable health concern is that fire suppressant foams are toxic in standardized soft and hard water and it is likely that water creatures will be infected If they were to be consumed by humans there is a great chance that these toxicities will be transferred into human body 36 See also editAerial firefighting Ammonium polyphosphate a fire retardant Flame retardant List of fire retardant materials Modular Airborne FireFighting System Phos Chek a foam or gel commercial fire retardant Wildland fire suppressionReferences edit BLM Wyoming Wildland Fire Glossary Blm gov 2008 06 18 Archived from the original on 2014 05 08 Retrieved 2012 08 04 Coford Glossary Fire Retardant Archived February 8 2009 at the Wayback Machine Zinsser Glossary Zinsser com Retrieved 2012 08 04 Hollingbery LA Hull TR 2010 The Thermal Decomposition of Huntite and Hydromagnesite A Review Thermochimica Acta 509 1 2 1 11 doi 10 1016 j tca 2010 06 012 Hollingbery LA Hull TR 2012 The Thermal Decomposition of Natural Mixtures of Huntite and Hydromagnesite Thermochimica Acta 528 45 52 doi 10 1016 j tca 2011 11 002 Hollingbery LA Hull TR 2010 The Fire Retardant Behaviour of Huntite and Hydromagnesite A Review Polymer Degradation and Stability 95 12 2213 2225 doi 10 1016 j polymdegradstab 2010 08 019 Hollingbery LA Hull TR 2012 The Fire Retardant Effects of Huntite in Natural Mixtures with Hydromagnesite Polymer Degradation and Stability 97 4 504 512 doi 10 1016 j polymdegradstab 2012 01 024 Hull TR Witkowski A Hollingbery LA 2011 Fire Retardant Action of Mineral Fillers Polymer Degradation and Stability 96 8 1462 1469 doi 10 1016 j polymdegradstab 2011 05 006 S2CID 96208830 PHOS CHeK D75 Fire Retardants PDF Archived from the original PDF on 2011 07 15 Retrieved 2008 11 20 How do flame retardants work European Chemical Industry Council CEFIC and European Flame Retardants Association EFRA Retrieved 12 Feb 2010 Amy Farnsworth 2007 08 06 New coatings cut risk of a dorm fire The Boston Globe US 2858895 Connell George A inventor Methods and compositions for controlling fires published November 4 1958 Interagency Standards for Fire and Aviation Operations 2007 Chapter 17 PDF National Interagency Fire Center Archived from the original PDF on 2007 09 28 Retrieved 2007 08 31 USDA Forest Service Wildland Fire Chemicals Retrieved 2008 11 13 US 6676858 Vandersall Howard L amp Kegeler Gary H Colorant liquid method of use and wildfire retardant liquids containing the same published January 13 2004 New fire retardant gel developed that can remain effective for months 4 October 2019 Retrieved 2020 10 05 Qualified Products List Long Term Fire Retardants National Technology and Development Program USDA Forest Service www fs fed us Retrieved 2022 01 06 Wildland Fire Chemical Product Information Retrieved 2008 11 13 Phos Chek Wildfire Home Defense FAQs Retrieved 2019 09 13 Ember bloc fire gel fact sheet Technical specs Retrieved 2020 10 05 Phos Chek MSDS PDF Retrieved 2008 11 14 permanent dead link Bell Tina Tolhurst Kevin Wouters Michael 16 May 2005 Bell T Tolhurst K and Wouters M Effects of the fire retardant Phos Chek on vegetation in eastern Australian heathlands International Journal of Wildland Fire 14 2 199 211 International Journal of Wildland Fire 14 2 199 211 doi 10 1071 WF04024 S2CID 129368588 Greensciencepolicy org Greensciencepolicy org Archived from the original on 2012 02 20 Retrieved 2012 08 04 Effect of Fire Retardant on Water Quality PDF Retrieved 2008 11 17 William Yardley November 15 2008 In Fighting Wildfires Concerns About Chemicals The New York Times Retrieved 2008 11 26 USDA Forest Service Wildland Fire Chemical Systems Retrieved 2008 11 13 Wildland Fire Chemical Products Toxicity and Environmental Concerns PDF Retrieved 2008 11 13 Marine bacteria are natural source of chemical fire retardants phys org June 29 2014 Retrieved July 21 2017 Lorber Matthew January 2008 Exposure of Americans to polybrominated diphenyl ethers Journal of Exposure Science amp Environmental Epidemiology 18 1 2 19 doi 10 1038 sj jes 7500572 ISSN 1559 064X PMID 17426733 S2CID 27473105 Bakker Martine I de Winter Sorkina Renata de Mul Anika Boon Polly E van Donkersgoed Gerda van Klaveren Jacob D Baumann Bert A Hijman Willie C van Leeuwen Stefan P J de Boer Jacob Zeilmaker Marco J February 2008 Dietary intake and risk evaluation of polybrominated diphenyl ethers in The Netherlands Molecular Nutrition amp Food Research 52 2 204 216 doi 10 1002 mnfr 200700112 ISSN 1613 4133 PMID 18058856 Dietrich Joseph P Myers Mark S Strickland Stacy A Van Gaest Ahna Arkoosh Mary R January 2013 Toxicity of forest fire retardant chemicals to stream type chinook salmon undergoing parr smolt transformation Environmental Toxicology and Chemistry 32 1 236 247 doi 10 1002 etc 2052 ISSN 1552 8618 PMID 23161484 S2CID 5240730 Shaw Susan D Blum Arlene Weber Roland Kannan Kurunthachalam Rich David Lucas Donald Koshland Catherine P Dobraca Dina Hanson Sarah Birnbaum Linda S October 2010 Halogenated flame retardants do the fire safety benefits justify the risks Reviews on Environmental Health 25 4 261 305 doi 10 1515 reveh 2010 25 4 261 ISSN 0048 7554 PMID 21268442 S2CID 20573319 Shaw Susan D Blum Arlene Weber Roland Kannan Kurunthachalam Rich David Lucas Donald Koshland Catherine P Dobraca Dina Hanson Sarah Birnbaum Linda S October 2010 Halogenated flame retardants do the fire safety benefits justify the risks Reviews on Environmental Health 25 4 261 305 doi 10 1515 reveh 2010 25 4 261 ISSN 0048 7554 PMID 21268442 S2CID 20573319 Sugeng Eva J de Cock Marijke Schoonmade Linda J van de Bor Margot October 2017 Toddler exposure to flame retardant chemicals Magnitude health concern and potential risk or protective factors of exposure Observational studies summarized in a systematic review Chemosphere 184 820 831 Bibcode 2017Chmsp 184 820S doi 10 1016 j chemosphere 2017 06 041 ISSN 1879 1298 PMID 28645086 Gaikowski M P Hamilton S J Buhl K J McDonald S F Summers C H August 1996 Acute toxicity of firefighting chemical formulations to four life stages of fathead minnow Ecotoxicology and Environmental Safety 34 3 252 263 doi 10 1006 eesa 1996 0070 ISSN 0147 6513 PMID 8812194 External links editFire Management Notes 1989 National Fire Protection Association Defense Fire Protection Association Influence of the fire retardant ammonium polyphosphate on the thermal degradation of poly methyl methacrylate Fire retardant Glass Archived 2014 12 17 at the Wayback Machine UL9 Certified Fire Resistant glass in USA Retrieved from https en wikipedia org w index php title Fire retardant amp oldid 1192671002, wikipedia, wiki, book, books, library,

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