preventing lithium-ion thermal runaway - faa fire safety · preventing lithium-ion thermal runaway...
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![Page 1: Preventing Lithium-Ion Thermal Runaway - FAA Fire Safety · Preventing Lithium-Ion Thermal Runaway October 5th, 2016 Nick Johnson, 3M EMSD Research Engineer . ... • GTM Research](https://reader036.vdocuments.mx/reader036/viewer/2022081402/5f11cec53f625a3e327915a4/html5/thumbnails/1.jpg)
Preventing Lithium-Ion Thermal Runaway
October 5th, 2016
Nick Johnson, 3M EMSD
Research Engineer
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Hazard Definition
• Lithium-ion batteries are subject to a catastrophic failure mode known as
thermal runaway when certain conditions create an internal short within a
cell.
• Common conditions:
• Electrical over-charge
• Thermal over-heat
• Manufacturing defects or impurities
• Dendritic lithium formation
• Mechanical damage
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Hazard Definition • Internal short failure rate is
very low
• 1:10,000,000 to 1:40,000,000
or 125 – 500 based on 2015
cell production
Avicenne Energy – presentation: Nice, France, October, 2015
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Difference in Cell Energies Based on Cathode Material
FAA. (2016). 2015 Fire Safety Highlights. Washington D.C.: Federal Aviation Administration.
Cathode Material
Directly Influences
The Energy Within
A Cell!!
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Market Growth Energy Storage Systems
• GTM Research is a
leading market
analysis & advisory
firm on the
transformation of
the global electricity
grid
• Industry in ESS
alone estimated to
grow from $356
million in 2015 to
$1.2 billion in 2021
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Project Scope
Use of fluorinated fluids to dissipate heat away from a Li-ion cell in thermal
runaway.
• If an internal short occurs, can the exothermic thermal event be limited and
escalating cell to cell failures be prevented?
• How much fluid is required to halt thermal runaway?
• Can the fluid be applied after the initial event?
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Nail Puncture Test
• Linear actuator controlled by a PLC inserts a metal rod
with a conical tip until it pierces the separator between
the anode and cathode of the cell, causing an internal
short.
• Instant thermal runaway occurs within the cell and a
subsequent explosion vents high temperature materials
and flammable organic solvents.
• For static immersion tests, the battery packs were
secured in a stainless steel container that allowed for a
variable amount of fluid to be in direct contact with the
exterior surface of the lithium-ion cells.
NailFluid Initiating Cell
3 125 4
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Test Cell Specification
• Testing used commercially available 2.6 amp hour 18650 cells.
• Cells had LiCoO2 cathode and a graphite anode.
• The AC impedance at 1 KHz is approximately 60 mΩ.
• The cells were charged to 100% SOC using a battery cycler.
• The electrolyte solvent was dimethyl carbonate.
• 1M LiPF6 in EC:EMC (3:7 by vol).
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Battery Pack Test Without Protection
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Problem Definition: Cell to Cell Thermal Runaway
Temperatures measured during cell to
cell thermal runaway.
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Battery Pack Test Immersed in C7 Fluorinated Ketone
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Protected vs Unprotected Cells
Initial Event
(Internal Short)
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Fluid Optimization
C7 Effective at 38%
of cell volume
C6 Effective at 75%
of cell volume
Total immersion is not
required to halt
thermal runaway
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Key Findings – Performance Mechanisms
• C6 and C7 liquids work by removing a significant amount of heat from a cell undergoing
thermal runaway.
• Heat is removed from the cell, increasing the bath temperature and with localized
evaporation.
• Adjacent cells are maintained at a constant temperature within the liquid bath and cell
to cell thermal runaway is prevented.
• Any combustible material expelled by a cell with an internal short cannot burn in an
environment where C6 or C7 liquids are present due to their flame extinguishing
properties.
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Delayed Protection
Goals:
• Quantify level of protection when C6 & C7 liquid is
applied after the initial event.
• Fluid applied before first adjacent cell runaway
event.
• Fluid applied between the first and second adjacent
cell runaway events.
• Determine time response required.
= Nail puncture
location
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Testing Apparatus
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Delayed Protection
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Thermal Runaway – Delayed Protection
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Key Findings
• Both C6 and C7 liquids are effective when in direct contact with cells undergoing
thermal runaway.
• Cells can be in contact before, during or after thermal runaway has started.
• When immersed in fluid, the voltage across the parallel battery packs was maintained
throughout the experiment.
• Time needed for adjacent cell failures to occur cannot be definitively determined.
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Applications
• Energy Storage System (ESS) Protection:
• Wind/Solar
• Peak shaving
• Bulk air transportation on cargo planes
• Cell thermal management
• Automotive
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Questions?
Further Information:
Nicholas S. Johnson| Research Engineer
3M Company, Electronics Materials Solutions Division
Office: 651.737.5463
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Thank You