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Lithium Metal Battery Cells – Risks and Hazards

LiMnO2 .48Wh. LiFeSO2 1.65Wh. LiMnO2 1.86Wh. LiMnO2 2.25Wh. LiFeSO2 4.35Wh. LiMnO2 4.65Wh. LiSOCl2 8.82Wh. LiMnO2 9Wh. LiSOCl2 10.8Wh. LiSOCl2 30.6Wh. LiMnO2 33.3Wh. LiSOCl2 68.4Wh. Lithium Metal Battery Cells – Risks and Hazards. ICAO. FAA Fire Safety. 09-11-2014.

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Lithium Metal Battery Cells – Risks and Hazards

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  1. LiMnO2 .48Wh LiFeSO2 1.65Wh LiMnO2 1.86Wh LiMnO2 2.25Wh LiFeSO2 4.35Wh LiMnO2 4.65Wh LiSOCl2 8.82Wh LiMnO2 9Wh LiSOCl2 10.8Wh LiSOCl2 30.6Wh LiMnO2 33.3Wh LiSOCl2 68.4Wh Lithium Metal Battery Cells – Risks and Hazards ICAO FAA Fire Safety 09-11-2014

  2. Lithium-Metal: Importance of Vent Thionyl Chloride (Without Vent) Thionyl Chloride (With Vent)

  3. Hazard of Thionyl Chloride (w/o vent) in LD3

  4. Lithium-Metal: Chemistry Variation Thionyl Chloride (With Vent) Sulfur Dioxide (With Vent) Manganese Dioxide (With Vent)

  5. Battery Fires in Reduced O2 Environment • 200 CR123A Manganese Dioxide cells in chamber Air Argon Nitrogen Initial O2: 9% Initial O2: 21% Initial O2: 9% Propagation Time: 187 sec O2 Depletion: 7.25% Max THC: .2237% Max Ave. Chamber Temp. 118.1C Propagation Time: 339 sec O2 Depletion: 3.67% Max THC: .7394% Max Ave. Chamber Temp. 165.5C Propagation Time: 337 sec O2 Depletion: .633% Max THC: .8746% Max Ave. Tree Temp. 37.63C

  6. Summary • Cells without adequate vents can explode. • Heat release, propagation and flammability vary among different chemistries of Lithium-Metal cells. • Propagation of cells is slowed by oxygen depletion with either Argon or Nitrogen • Argon was insufficient to fully prevent the battery fire however.

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