lithium ion battery thermal runaway · 2019-12-11 · –fgs •external fire •knock-on •gas...
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Lithium Ion Battery Thermal Runaway
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Battery is a Chemical Plant
• Energy Stored as Chemical Reaction Potential
• Chemical Reaction to Charge
• Chemical Reaction to Discharge
Tesla Model S – 7,104 cells in 16 series wired modules –1,200 lbs – 85kW/h
Power Storage Facility –2mW/h – 28,235 lbs?% Flammable Liquids?
Patented 1976 – Exxon Researcher Stanley Whittingham – 2019 Nobel Laureate
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Lithium Ion Battery Facility Explosion
• Arizona Public Service (APS)• Surprise, AZ, outside Phoenix,
April 19th, 2019• Store Solar Power Generated
During Day for Discharge at Night• Firefighters called in to fight fire in
facility• Upon entering facility, explosion
which sent four first responders to hospital
• Third similar event within company since 2012
• Fire Marshals now requiring use of gas detection
• 2 Megawatt-Hour
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General Battery Operation
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Components
• Anode (Graphite and Binder)
• Cathode - LiCoO2
• Electrolyte
– Organic Solvent
– LiPF6
• Separator – PP, PP/PE Blend
• Current Collectors
– Copper (Anode)
– Aluminum (Cathode)
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Cell Enclosures
• Single Cell
• Hard Case
• Pouches
• Collections
– Cell
– Module
– Pack
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Failure Modes
• Thermal Runaway
– Self Accelerating Decomposition Temperature (SADT) – 66.5 C
– No Return Temperature (TNR) – 75 C
• External Fire
• Short Circuit
– Through separator
– Internal due to component failure
– External
• Puncture
Pinhole failure of separator
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Thermal Runaway
• Stages and Effect of Thermal Runaway– Energy discharge –
heating
– Electrolyte cracking –First gassing phase
– Separator and Anode decomposition –second gassing phase
– Ignition – flash fire or vapor cloud explosion
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Stage 1 – Energy Discharge - Heating
• Energy in Battery is Suddenly Discharged
– Generally the result of a short circuit
– Stored energy mostly converted to intense heat
– No gas expansion typical of hydrocarbon combustion at this stage
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Stage 2 – Electrolyte Cracking / Gassing
• High temperature causes flashing/cracking of electrolyte
– LiPF6 and Organic Solvent (Ethylene Carbonate) Decompose
– Products• H2
• CO
• CO2
• CH4
• C2H4
• HF
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Stage 3 – Separator and Anode Cracking / Gassing
• High temperature causes flashing/cracking of anode and separator
– Graphite, Binder, PE/PP Film
– Incomplete cracking decomposition, gas discharge becomes smoky
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Stage 4 – Ignition and Combustion
• Loss of momentum and air entrainment result in ignition
– Generally above auto-ignition
– If insufficient air is present, flammables will accumulate –potential for explosion
– Entire battery (capable of combusting
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Recommendations for Safeguarding
• PHA
– Study types
• HAZOP
• FMEA
– Guide Words / Failure Modes
• Implement Safeguards
– Pressure Relief
– SIS
– FGS
• External Fire
• Knock-On
• Gas Detection
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Conclusions
• Li Ion batteries in large quantities inside fixed facilities
pose significant facility risk
• Hazards of Li Ion battery usage should be formally
assessed
• Appropriate safeguards should be included in the facility
design