Are Lithium Ion Cells Intrinsically Safe?

Author

Dubaniewicz, Thomas H. ; DuCarme, Joseph P.

Author_Institution

Nat. Inst. for Occupational Safety & Health, Pittsburgh, PA, USA

Volume

49

Issue

6

fYear

2013

fDate

Nov.-Dec. 2013

Firstpage

2451

Lastpage

2460

Abstract

National Institute for Occupational Safety and Health researchers are studying the potential for Li-ion-battery thermal runaway from an internal short circuit in equipment approved as permissible for use in underground coal mines. Researchers used a plastic wedge to induce internal short circuits for thermal runaway susceptibility evaluation purposes, which proved to be a more severe test than the flat plate method for selected Li-ion cells. Researchers conducted cell crush tests within a 20-L chamber filled with 6.5 % CH₄-air to simulate the mining hazard. Results indicate that LG Chem ICR18650S2 LiCoO₂ cells pose a CH₄ explosion hazard from a cell internal short circuit. Under specified test conditions, A123 Systems 26650 LiFePO₄ cells were safer than the LG Chem ICR18650S2 LiCoO₂ cells at a conservative statistical significance level.

Keywords

explosions; mining; secondary cells; A123 systems 26650 cells; ICR18650S2 cells; LiCoO₂; LiFePO₄; cell crush test; explosion hazard; flat plate method; internal short circuit; lithium ion cell; mining hazard; plastic wedge; thermal runaway; underground coal mine; Batteries; Explosions; Fires; IEC standards; Ignition; Plastics; Batteries; electrical accidents; explosion protection; fires; hazardous areas; ignition; mining industry; occupational safety; standardization;

fLanguage

English

Journal_Title

Industry Applications, IEEE Transactions on

Publisher

ieee

ISSN

0093-9994

Type

jour

DOI

10.1109/TIA.2013.2263274

Filename

6516518