Li-ion Batteries and Electric Vehicles
Transcript of Li-ion Batteries and Electric Vehicles
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Li-ion Batteries and
Electric Vehicles
October 27, 2010
Joel Sandahl
ZX Technologies, Inc.760 Spanish Oak Trail
Dripping Springs, TX 78620
USA
Phone: +1-512-964-9786
E-Mail: [email protected]
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Introduction
Why Electric Vehicles (EVs)?
EV Types and Applications
EV Considerations
EV Design Architectures
EV Battery Cell Packages
EV Battery Cell Chemistries
EV Economics
Conclusions
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Why Electric Vehicles (EVs)?
Reduce consumption of crude oil (finite resource)
Reduce dependence on crude oil (national security)
Reduce environmental impact (green)
Reduce transportation costs
First cost
Operating cost
Maintenance cost
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EV Types and Applications
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Passenger Cars Delivery Trucks
Buses
• Limited-Route/Return-To-Base
• Unlimited-Route
• Limited-Route/Return-To-Base
• Unlimited-Route
• Limited-Route/Return-To-Base
• Unlimited-Route
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EV Considerations
Driving Range
Charging Stations
Recharging Time
Economics
Safety
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EV Design Architectures
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Battery
Internal Combustion
Engine (ICE)
Motor-Generator Battery
Internal Combustion
Engine (ICE)
Motor-Generator
Generator
BatteryMotor-Generator
Battery Electric Vehicle
Parallel Hybrid Electric Vehicle Series Hybrid Electric Vehicle
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Why Hybrid?
Extend Driving Range
Reduce Weight, Size and Cost of Battery
For example, car with 400 mile range:
Gas @ 33 mpg = 12 gal [equivalent: 432 kWh (gross), 200 kWh (net)]
72.9 lbs, 1.62 cu ft
Electric @ 0.5 kWh/mile = 200 kWh:
5,000 lbs, 80 cu ft, $150,000 Much more than weight/cost of car!
Hybrid @ 40 mpg = 10 gal + 3.0 kWh [increase fuel efficiency by 20-50%]
60.8 lbs, 1.35 cu ft
75 lbs, 1.2 cu ft, $2,250
Total: 136 lbs, 2.55 cu ft, $2,250
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Gas – the ultimate in energy density !!!
NOTE: Calculations based on LFP batteries.
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Essence of Hybrid Operation
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• Use motor to augment power outside of optimal operating region.
• Use generator and regenerative braking to recover energy.
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EV Battery Cell Packages
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18650 Cylindrical Pouch Prismatic Can Prismatic
InvenTek Rolled-Ribbon™ Yintong Energy Annular
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EV Battery Cell Construction
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EV Battery Cell Chemistries
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Gravimetric (200 Wh/kg)
Volumetric (600 Wh/l)
Cap @ -20ºC (%C)
Cap @ +50ºC (%C)
Self-Discharge (%C/month)
Std Charge (20 hours)
Fast Charge (4 hours)
Cycle Life (2000 cycles)
Service Life (10 years)
Cost ($1.00/Wh)
LA NiMH LFP LCO
LCO is unstable and subject to
thermal runaway. Unsafe.
Other Li-ion Chemistries:
LMO
NMC
NCA
LTO
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Battery Cycle Life
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CY
CL
E L
IFE
0% 100%DEPTH OF DISCHARGE
Nominal = 1X
5X-10X
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EV Economics – Battery Electric (operating cost only)
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CO
ST
OF
BA
TT
ER
Y
0 NMILES DRIVEN
Battery Cost
Breakeven at
Operating Cost
Slope =
Differential Between
Fuel/Electric Cost Per Mile
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EV Economics – Battery Electric (operating cost only)
40 Mile Limited Range Car, 0.5 kWh/mile, 33 mpg
Battery = 20 kWh = $15,000
@ $0.12/kWh and $2.65/gal, Breakeven = 740,740 miles
@ $0.12/kWh and $3.50/gal, Breakeven = 325,657 miles
40 Mile Limited Range City Bus, 3.0 kWh/mile, 5.0 mpg
Battery = 120 kWh = $90,000
@ $0.12/kWh and $3.00/gal, Breakeven = 375,000 miles
@ $0.12/kWh and $4.00/gal, Breakeven = 204,545 miles
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But battery cycle life is limited to 100,000 miles !!!
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EV Economics – Hybrid Electric (operating cost only)
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CO
ST
OF
BA
TT
ER
Y
0 NMILES DRIVEN
Battery Cost
Breakeven at
Operating Cost
Slope =
Differential Between
Fuel Cost Saving Per Mile
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EV Economics – Hybrid Electric (operating cost only)
Hybrid Car, 33 mpg 42 mpg (+30%)
Battery = 3 kWh = $2,250
@ $0.12/kWh and $2.65/gal, Breakeven = 130,755 miles
@ $0.12/kWh and $3.50/gal, Breakeven = 99,000 miles
Hybrid City Bus, 5.0 mpg 6.5 mpg (+30%)
Battery = 20 kWh = $15,000
@ $0.12/kWh and $3.00/gal, Breakeven = 108,333 miles
@ $0.12/kWh and $4.00/gal, Breakeven = 81,250 miles
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In hybrid mode, battery cycle life is >> 200,000 miles !!!
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EV Battery Cost Breakdown
Batt Pkg10%
Batt Elect16%
Batt Labor6%
LFP23%
Other Chem
7%Electrodes
2%
Seperator7%
Electrolyte4%
Cell Misc12%
Cell Labor13%
LFP Battery Cost ($750/kWh)
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Estimate another 20-30% cost reduction available as volumes increase.
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Conclusions
Li-ion is the right choice for EVs today -- in particular LFP
BEVs: On “operating cost” basis alone, economics challenged
It is believed that there will be substantial “maintenance cost” savings,
particularly for fleet vehicles. Just too early to prove at this time.
Can be many other significant benefits that go beyond direct economics,
such as environment issues and their associated indirect costs
HEVs: Economics are “marginally” supportable now
Likely to become solid with cost reductions and improved hybrid
efficiencies that can be reasonably and realistically expected
Key to broad adoption of EVs in the future will be safe higher energy
density cells
Given the state of electrochemical technology and the speed of
introduction for new electrochemical technologies, don’t expect new
game-changing technologies to be in the market for 5-10 years
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Thank You !