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A Guide to Lithium-Ion Battery Safety
Jim McDowall
Battcon 2014
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What is safety?
Safety is not absolute!
…or intrinsic (to batteries)
Safety is relative and is expressed statistically
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Definitions
safety – ‘freedom from unacceptable risk’
hazard – ‘a potential source of harm’
risk – ‘the combination of the probability of harm and the severity of that harm’
tolerable risk – ‘risk that is acceptable in a given context, based on the current values of society’
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Safety statistics – IEC 61508
“Functional safety of electrical/electronic/programmable electronic safety-related systems”
Safety Integrity Levels:
SIL High demand or continuous mode:
probability of dangerous failure per hour
1 ≥ 10-6 to < 10-5
2 ≥ 10-7 to < 10-6
3 ≥ 10-8 to < 10-7
4 ≥ 10-9 to < 10-8
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Good safety philosophy
Safety events cannot be entirely eliminated
Reduce the probability of a safety event
Minimize the level / severity of that event
Limit the consequences of the event
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Lithium-ion hazard categories
Overcharging
Overtemperature
Mechanical abuse
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Lithium-ion basics
Safety characteristics vary by Li-ion electrochemistry
Overcharged (delithiated) positive can become unstable
Passivation layer (SEI) can break down above 100°C
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Battcon 2008 – “Understanding Lithium -Ion Technology”
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Overcharging
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The most serious of Li-ion safety events
…but also the least likely
Would require very high voltage
Around 65V for a 48V system
Around 160V for a 125V system
Multiple layers of control
Reliable charging systems
Alarm management
Battery-level switches
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Overtemperature
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Causes
High ambient temperature
I2R heating from duty cycle
Internal short circuit
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Mechanical abuse
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Crushing or penetration of cells
Can cause short-circuiting and overtemperature
Most likely during transportation and installation
Shipment in partially charged state
Roadside cabinets could be hit by a vehicle
Partial protection from cabinet structure
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Selling safety
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Frequent promotion of ‘single-shot’ safety solutions
Electrochemistry
Ceramic-coated separators
Thermal-management devices
Electrochemistry
Lithium iron phosphate
Lithium titanate
Each has pros and cons
No intrinsic safety!
“Prius fire forensics” report
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Holistic safety – the four pillars
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Cell design – venting
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Relies on gas pressure buildup within cell
May also have a circuit-interrupt function
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Effects of cell venting
Saft's approach to Li-ion safety - Confidential - Do not distribute 14
The severity of a thermal runaway event can be limited if the chain is interrupted
HEAT SOURCE
LOW TEMP REACTIONS
HIGH TEMP REACTIONS
THERMITE REACTIONS
TEM
PERATU
RE
TIME
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System design – module
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Avoid heat propagation from a cell in thermal runaway
Air gap
Thermal insulation
Phase-change material
Module mounting must allow for management of vented gas
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System design – battery management
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Layered approach to safety management
Measurement and detection
Cell balancing
Switches (contactors; MOSFETs)
Algorithms
Alarm management
Mid
dle
ware
A
pp
licati
on
HW
Middleware component
Drivers component
Application sequencer
Data
Lo
w-l
evel
Link &
Transport
Presentation
Middleware
module
Drivers module Physical module
BMS Software
BMU Library
BMS Functions
Façade Library sequencer
IMD/IMR SOC/SOH
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Case study – Boeing Dreamliner
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First large commercial jet with Li-ion batteries
Two incidents of battery fires grounded the fleet for months
Extensive NTSB investigation
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Dreamliner battery design
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Dreamliner cell construction
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Dreamliner battery fix
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Standards and specifications
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Two approaches
Specify safety design features
Specify functional safety under application conditions
Specifying functional safety is far better
Allows use of standards
IEC 61508 – SIL level
Telcordia GR-3150
IEEE Std 1679 provides framework for evaluating safety and other functionality of new technologies
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Summary
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Recognize that safety is never absolute
Holistic approach through “four pillars” concept
Safety maxim: “Do everything possible to eliminate a safety event, and then assume it will happen”
Properly designed Li-ion batteries can be operated confidently with a high degree of safety