Skip to main content
Erschienen in:

25.06.2022

Experimental Investigation of Fire Extinguishing of a Full-Size Battery Box with FK-5-1-12

verfasst von: ZhiYue Han, XinRui Zhang, Yue Yu, ZhiMing Du, Hsiu-Ying Hwang, Ling Liu, Li Deng

Erschienen in: Fire Technology | Ausgabe 3/2023

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config
loading …

Abstract

As an excellent fire extinguishing agent, FK-5-1-12 has been widely used in industry. This article studies the fire extinguishing performance of FK-5-1-12 on a full-size battery box experimentally, triggered into thermal runaway by heating a lithium iron phosphate battery. By analyzing the extinguishment, reignition, as well as temperature changes on the battery surface and in the vicinity of the safety valve, the efficacy of the extinguishing agent under real circumstances of a lithium iron phosphate battery fire was investigated, using different loading of FK-5-1-12. The performance of FK-5-1-12 is analyzed and evaluated in combination with the flame extinguishing effect and the cooling effect.

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

  • über 67.000 Bücher
  • über 390 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Maschinenbau + Werkstoffe




 

Jetzt Wissensvorsprung sichern!

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

  • über 102.000 Bücher
  • über 537 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Finance + Banking
  • Management + Führung
  • Marketing + Vertrieb
  • Maschinenbau + Werkstoffe
  • Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Literatur
1.
Zurück zum Zitat Wang C (2015) Formulation of patent strategy of new energy industry in under low carbon economy environment. Jilin University Wang C (2015) Formulation of patent strategy of new energy industry in under low carbon economy environment. Jilin University
3.
Zurück zum Zitat Feng X, Ren D, He X et al (2020) Mitigating thermal runaway of lithium-ion batteries. Joule 4(4):743–770CrossRef Feng X, Ren D, He X et al (2020) Mitigating thermal runaway of lithium-ion batteries. Joule 4(4):743–770CrossRef
4.
Zurück zum Zitat Feng X, Zheng S, Ren D et al (2019) Investigating the thermal runaway mechanisms of lithium-ion batteries based on thermal analysis database. Appl Energy 246:53–64CrossRef Feng X, Zheng S, Ren D et al (2019) Investigating the thermal runaway mechanisms of lithium-ion batteries based on thermal analysis database. Appl Energy 246:53–64CrossRef
5.
Zurück zum Zitat Feng X, Fang M, He X et al (2014) Thermal runaway features of large format prismatic lithium ion battery using extended volume accelerating rate calorimetry. J Power Sources 255:294–301CrossRef Feng X, Fang M, He X et al (2014) Thermal runaway features of large format prismatic lithium ion battery using extended volume accelerating rate calorimetry. J Power Sources 255:294–301CrossRef
6.
Zurück zum Zitat Abraham DP, Roth EP, Kostecki R et al (2006) Diagnostic examination of thermally abused high-power lithium-ion cells. J Power Sources 161(1):648–657CrossRef Abraham DP, Roth EP, Kostecki R et al (2006) Diagnostic examination of thermally abused high-power lithium-ion cells. J Power Sources 161(1):648–657CrossRef
7.
Zurück zum Zitat Golubkov AW, Scheikl S, Planteu R et al (2015) Thermal runaway of commercial 18650 Li-ion batteries with LFP and NCA cathodes—impact of state of charge and overcharge. RSC Adv 5:57171–57186CrossRef Golubkov AW, Scheikl S, Planteu R et al (2015) Thermal runaway of commercial 18650 Li-ion batteries with LFP and NCA cathodes—impact of state of charge and overcharge. RSC Adv 5:57171–57186CrossRef
8.
Zurück zum Zitat Harris SJ, Timmons A, Pitz WJ (2009) A combustion chemistry analysis of carbonate solvents used in Li-ion batteries. J Power Sources 193(2):855–858CrossRef Harris SJ, Timmons A, Pitz WJ (2009) A combustion chemistry analysis of carbonate solvents used in Li-ion batteries. J Power Sources 193(2):855–858CrossRef
9.
Zurück zum Zitat Doughty DH, Roth EP, Crafts CC (2005) Effects of additives on thermal stability of Li ion cells. J Power Sources 146(1/2):116–120CrossRef Doughty DH, Roth EP, Crafts CC (2005) Effects of additives on thermal stability of Li ion cells. J Power Sources 146(1/2):116–120CrossRef
10.
Zurück zum Zitat Guo CC, Zhang QS (2016) Determination on explosion limit of pyrolysis gas released by lithium-ion battery and its risk analysis. China Saf Prod Sci Technol 09:46–49 Guo CC, Zhang QS (2016) Determination on explosion limit of pyrolysis gas released by lithium-ion battery and its risk analysis. China Saf Prod Sci Technol 09:46–49
11.
Zurück zum Zitat Somandepalli V, Marr K, Horn Q (2014) Quantification of combustion hazards of thermal runaway failures in lithium-ion batteries. SAE Int J Altern Powertrains 3(1):98–104CrossRef Somandepalli V, Marr K, Horn Q (2014) Quantification of combustion hazards of thermal runaway failures in lithium-ion batteries. SAE Int J Altern Powertrains 3(1):98–104CrossRef
12.
Zurück zum Zitat Liu PJ, Li YQ, Mao BB, Chen M, Huang ZH, Wang QS (2021) Experimental study on thermal runaway and fire behaviors of large format lithium iron phosphate battery. Appl Therm Eng 192:13CrossRef Liu PJ, Li YQ, Mao BB, Chen M, Huang ZH, Wang QS (2021) Experimental study on thermal runaway and fire behaviors of large format lithium iron phosphate battery. Appl Therm Eng 192:13CrossRef
13.
Zurück zum Zitat Zhang ZL, Du ZM, Han ZY, Wang HB, Wang S (2021) Temperature characteristics of lithium iron phosphatepower batteries under overcharge. Int J Energy Res 44:11840–11851CrossRef Zhang ZL, Du ZM, Han ZY, Wang HB, Wang S (2021) Temperature characteristics of lithium iron phosphatepower batteries under overcharge. Int J Energy Res 44:11840–11851CrossRef
14.
Zurück zum Zitat Huang ZH, Liu JL, Zhai HJ, Wang QS (2021) Experimental investigation on the characteristics of thermal runaway and its propagation of large-format lithium ion batteries under overcharging and overheating conditions. Energy 233:121103CrossRef Huang ZH, Liu JL, Zhai HJ, Wang QS (2021) Experimental investigation on the characteristics of thermal runaway and its propagation of large-format lithium ion batteries under overcharging and overheating conditions. Energy 233:121103CrossRef
15.
Zurück zum Zitat Li YY (2013) Novec 1230 extinguishing agent. Fire Sci Technol 4:120 Li YY (2013) Novec 1230 extinguishing agent. Fire Sci Technol 4:120
16.
Zurück zum Zitat Surhone LM, Timpledon MT, Marseken SF et al (2010) Novec 1230. Landolt Brnstn Group IV Phys Chem 26(1976):263–291 Surhone LM, Timpledon MT, Marseken SF et al (2010) Novec 1230. Landolt Brnstn Group IV Phys Chem 26(1976):263–291
17.
Zurück zum Zitat NFPA G (2001) Standard on clean agent fire extinguishing systems. Portable fire extinguishers used to comply with this standard shall be listed and labeled and meet or exceed all the requirements of Fire Test Standards UL 711 NFPA G (2001) Standard on clean agent fire extinguishing systems. Portable fire extinguishers used to comply with this standard shall be listed and labeled and meet or exceed all the requirements of Fire Test Standards UL 711
18.
Zurück zum Zitat Zhang L (2015) Study on the relationship between discharge conditions and Class B flame-extinguishing effect of C6-fluoroketone. Nanjing University of Science and Technology, Nanjing Zhang L (2015) Study on the relationship between discharge conditions and Class B flame-extinguishing effect of C6-fluoroketone. Nanjing University of Science and Technology, Nanjing
19.
Zurück zum Zitat Hodges SE, Mccormick SJ (2013) Fire extinguishing agents for protection of occupied spaces in military ground vehicles. Fire Technol 49(2):379–394CrossRef Hodges SE, Mccormick SJ (2013) Fire extinguishing agents for protection of occupied spaces in military ground vehicles. Fire Technol 49(2):379–394CrossRef
20.
Zurück zum Zitat Rahm M, Leandersson A (2014) Electrical cabinet fire extinguishment testing. Fire Technology Boras Sweden, Boras Rahm M, Leandersson A (2014) Electrical cabinet fire extinguishment testing. Fire Technology Boras Sweden, Boras
21.
Zurück zum Zitat Wang S, Du ZM, Han ZY, Zhang ZL, Liu L et al (2018) Study of the temperature and flame characteristics of two capacity LiFePO4 batteries in thermal runaway. J Electrochem Soc 165(16):A3828–A3836CrossRef Wang S, Du ZM, Han ZY, Zhang ZL, Liu L et al (2018) Study of the temperature and flame characteristics of two capacity LiFePO4 batteries in thermal runaway. J Electrochem Soc 165(16):A3828–A3836CrossRef
Metadaten
Titel
Experimental Investigation of Fire Extinguishing of a Full-Size Battery Box with FK-5-1-12
verfasst von
ZhiYue Han
XinRui Zhang
Yue Yu
ZhiMing Du
Hsiu-Ying Hwang
Ling Liu
Li Deng
Publikationsdatum
25.06.2022
Verlag
Springer US
Erschienen in
Fire Technology / Ausgabe 3/2023
Print ISSN: 0015-2684
Elektronische ISSN: 1572-8099
DOI
https://doi.org/10.1007/s10694-022-01273-8

Weitere Artikel der Ausgabe 3/2023

Fire Technology 3/2023 Zur Ausgabe