a total li-ion battery simulation solution -...
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![Page 1: A Total Li-Ion Battery Simulation Solution - IPFWlin/IEEE-FortWayneSection/TechMeeting/Total_Li... · 1 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential A Total Li-Ion Battery](https://reader034.vdocuments.mx/reader034/viewer/2022052319/5a816a7e7f8b9a38478d3aa2/html5/thumbnails/1.jpg)
1 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
A Total Li-Ion Battery Simulation Solution
(SAE 2014-01-1842)
Xiao Hu and Scott Stanton
ANSYS Inc.
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2 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
A Total Li-Ion Battery Simulation Solution
Module/Pack
Thermal Mgt
Durability
NVH
EMI/EMC
Electrode
Layout
Process
Life
SEI
Molecular
Materials
Powertrain
System
Integration
Sm
all
Sca
le
Larg
e S
cale
Cell
Charging
Discharging
Heating
Safety
ECM
CFD
ROM
FEA
ECM
CFD
FEA
Electro-
chemistry
ECM
ROM
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3 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
A Total Li-Ion Battery Simulation Solution
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4 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Electrode Level - Electrochemistry
• Electrochemical Kinetics
• Solid-State Li Transport
• Electrolytic Li Transport
• Charge Conservation/Transport
• (Thermal) Energy Conservation
Li+
e
Li+
Li+ Li+
LixC6LixC6 Lix-Metal-oxideLix-Metal-oxidee
Jump
(((( )))) Liee
ee jF
tcD
tc ++++−−−−++++∇∇∇∇⋅⋅⋅⋅∇∇∇∇====
∂∂∂∂∂∂∂∂ 1)(εεεε
Impact of Discharge Rate on Capacity Charge Discharge CyclesTemperature Impact on Capacity
1/10 C
1/2 C
1 C
2 C
4 C
6 C
8 C
10 C
X. Hu, S. Lin, S. Stanton, SAE paper 2012-01-0665
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5 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Electrode Level - Electrochemistry
Impact of Temperature on
Concentration Distribution
Impact of Particle Shape on Capacity
Rate
0.1C
0.5C
1C
3C
5C
10C
Rate
0.1C
0.5C
1C
3C
5C
10C
Validation of Reduced Order Electrochemistry
[1] X. Hu, S. Stanton, L. Cai, R.E. White, J. Power Sources 214, 40-50, 2012.
[2] X. Hu, S. Stanton, L. Cai, R.E. White, J. Power Sources 218, 212-220, 2012.
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6 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Electrochemistry for Thermal Runaway
qTt
Tcp +∇⋅∇=∂
∂λ
ρ )(
� Energy Equation + Heat Source
� Energy Equation((((Default))))
∂∂
+−−=T
UTUiaq j
jesnjsj φφ
( )eeeffDee
effss
eff c φκφφκφφσ ∇⋅∇+∇⋅∇+∇⋅∇+ ln
� Heat Source (reaction heat + Joule heating)
W. B. Gu, C. Y. Wang, Journal of Electrochem. Soc., 147 (8), 2910-2922 (2000)
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7 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Electrochemistry for Thermal Runaway
� Shows impact of material properties on thermal behavior.
� Can also investigate impact of design on thermal behavior, say thickness of the separator.
W. B. Gu, C. Y. Wang, Journal of Electrochem. Soc., 147 (8), 2910-2922 (2000)
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8 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Newman P2D Electrochemistry Model in Fluent(CAEBAT project)
( ) 0=−∇⋅∇ Lis jφσ
∂∂
∂∂=
∂∂
r
cr
rr
D
t
c sss 22
( ) ( ) 0ln =+∇⋅∇+∇⋅∇ LieDe jckk φ
( ) Liee
ee jF
tcD
t
c +−+∇⋅∇=∂
∂ 1)(ε
−−
= ηαηαξRT
F
RT
Fij ca
aLi expexp0
Domains
• negative electrode
• separator
• positive electrode
• spherical particles
A system of DAEs are solved for every CFD cells:
- Total number of equations: (n_Cs+2) *n_NE + 2n_SP+(N_Cs+2) n_PE
- Memory requirements: N_cell*{(n_Cs+1) *n_NE+ n_SP +(N_Cs+1) n_PE)}
L. Cai and R.E. White, “Reduction of Model Order Based on Proper Orthogonal Decomposition for
Lithium-Ion Battery Simulations” J. of Electrochemical. Soc. 156(3) A154-A161 (2009).
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9 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Numerical Method
Two user defined scalars are used to solve for φφφφ+ and φφφφ- on CFD mesh
φφφφ+ and φφφφ- are loosely coupled through source term, special treatments are used to enhance the convergence for
different current, voltage or power boundary
condition
Sundials IDA solver is used to solve E-chemistry.
• Newman model: 300~2000 equations.
The key is try to reduce the CPU cost!
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10 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Temperature Results Based on Electrochemistry
-110
-90
-70
-50
-30
-10
10
30
50
0 200 400 600 800 1000 1200 1400
Cu
rre
nt
(A)
Time (s)
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11 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Cell Level – CFD Thermal
Temperature Distribution
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12 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Cell Level –Electro-Thermal
Current DensityCathode AnodeCurrent Density
( ) J=∇⋅∇ φσ
)( UYJ ac −−= φφ
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13 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Cell Level – ECM
Battery Equivalent Circuit Model (ECM)Simulation Testing
X. Hu, L. Collins, S. Stanton, S. Jiang, "A Model Parameter Identification Method for Battery Applications", SAE 2013-01-1529.
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14 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
• 28 cells are connected in a
module
• 4 modules are connected
to the final configuration
Module/Pack Level – ECM
X. Hu, L. Collins, S. Stanton, S. Jiang, "A Model Parameter Identification Method for Battery Applications", SAE 2013-01-1529.
Battery Pack ECM
Simulation Results
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15 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Voc vs. SOC
Pulse Discharge
ECM Extraction Toolkit
Cell Level – ECM Extraction Tool
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16 © 2013 ANSYS, Inc. June 4, 2014 ANSYS ConfidentialX. Hu, L. Collins, S. Stanton, S. Jiang, "A Model Parameter Identification Method for Battery Applications", SAE 2013-01-1529.
Cell Level – ECM Extraction Tool
ECM Extraction Toolkit
ECM Model
Workflow
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17 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Module Level – CFD Thermal
Temperature Distribution
Temperature and PathlinesTemperature Distribution
Temperature Distribution
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18 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Motivation of Reduced Order Model(ROM)
� CFD as a general thermal analysis tool is accurate.
� Can be computationally expensive for system level analysis
� ROM can significantly reduce the model size and simulation time.
� ROM is an import tool for system level simulation.
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19 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Battery Thermal Behavior via ROM
�Type 1: Thermal Network
• Careful calculation and calibration needed
• Accuracy compromises
�Type 2: LTI – state space
• Can be as accurate as CFD
• No calibration
LTIt t
Step
Input
Step
Response
1
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20 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
1. Create the CFD model
2. Generate step responses
� Icepak has specialized tools
� Other CFD codes are fine
4. Simulate inside Simplorer
3. Extract LTI ROM
� Use Simplorer
LTI ROM for Battery Cooling
ANSYS CFD
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21 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
LTI ROM gives the same results as CFD. LTI
ROM runs in less than 2 seconds while
the CFD runs 2 hours on one single CPU.
X. Hu, S. Lin, S. Stanton, W. Lian, “A Foster Network Thermal Model for HEV/EV Battery Modeling,” IEEE TRANSACTIONS ON
INDUSTRY APPLICATIONS, VOL. 47, NO. 4, JULY/AUGUST 2011
X. Hu, S. Lin, S. Stanton, W. Lian, “A State Space Thermal Model for HEV/EV Battery Modeling", SAE 2011-01-1364
Heat Profile
LTI ROM for GM Battery Module
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22 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Module Level – ROM for Thermal
ROM vs CFDROM for the Battery Module
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23 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
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24 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
� SVD ROM technology allows for quick temperature distribution
calculation in addition to average temperature calculation.
� Using a heat source from GM, SVD ROM is applied to the GM 16 cell
case.
SVD ROM : GM 16 Cell Test Case
Heat source used
S. Asgari, X. Hu,M. Tsuk, S. Kaushik,“Application of POD plus LTI ROM to Battery Thermal Modeling: SISO Case,” SAE 2014.-01-1843
X. Hu, S. Asgari, I. Yavuz, S. Stanton, C-C Hsu, Z. Shi, B. Wang, H-K Chu, “A Transient Reduced Order Model for Battery Thermal Management Based
on Singular Value Decomposition,“IEEE Energy Conversion Congress and Expo, 2014
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25 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
1. Create the CFD model
2. Generate step responses
� Cannot use Icepak
� Can only use FLUENT
4. Simulate inside Simplorer
3. Extract SVD ROM
� Use Simplorer
SVD ROM for Battery Cooling
ANSYS CFD
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26 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
SVD ROM Validation: GM 16 Cell Test Case
CFD (200 sec)
SVD ROM
(200 sec)
CFD (400 sec) CFD (600 sec) CFD (800 sec)
SVD ROM
(400 sec)
SVD ROM
(600 sec)
SVD ROM
(800 sec)
X. Hu, S. Asgari, I. Yavuz, S. Stanton, C-C Hsu, Z. Shi, B. Wang, H-K Chu, “A Transient Reduced Order Model for Battery Thermal Management Based
on Singular Value Decomposition,“ Submitted to ECCE 2014.
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27 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Temperature Distribution - Animation
Temperature calculated from CFD.
7 hr simulation time with 6 CPUs.
Temperature calculated from SVD ROM.
0.5 hr simulation time with 1 CPU.
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28 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Temperature Distribution - Animation
Temperature calculated from SVD ROM.
0.5 hr simulation time with 1 CPU.
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29 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
SVD ROM Statistics for GM 16 Cell Test Case
CFD mesh size 3,025,067
Number of steps in step response run 180
Size of matrixA 3,025,067×180
Number of snap shots used for SVD calculation 180
SVD calculation time 5 minutes
SVD calculation memory usage 8.1 G
SVD ROM extraction time 5 minutes
CFD validation simulation time on single CPU 5 hours
SVD ROM simulation time on the same single CPU a few seconds
Using SVD ROM results for an animation on one CPU 10 to 30 minutes
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30 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
SVD ROM Validation
CFD (10 sec)
SVD ROM
(10 sec)
CFD (20 sec) CFD (30 sec) CFD (40 sec)
SVD ROM
(20 sec)
SVD ROM
(30 sec)
SVD ROM
(40 sec)
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31 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
SVD ROM Statistics for the Test Case
CFD mesh size 12,209,486
Number of steps in step response run 120
Size of matrixA 12,209,486×120
Number of snap shots used for SVD calculation 60
SVD calculation time 3 minutes
SVD calculation memory usage 18 G
SVD ROM extraction time 5 minutes
CFD validation simulation time on six CPUs 20 hours
SVD ROM simulation time on the same single CPU a few seconds
Using SVD ROM results for an animation on one CPU 20 to 40 minutes
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32 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
� ECM calculates heat source and sends it to the two ROMs.
� LTI ROM calculates average temperature and sends it to ECM.
� SVD ROM calculates temperature distribution.
GM Battery Module – ECM Coupled with ROMs
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33 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
ROMs/ECM Coupled Results
LTI ROM calculates average temperature.
SVD ROM calculates temperature field.
– Needs to be post-processed back in FLUENT.
ECM calculates electrical performance.
Average Cell Temperature Battery Voltage as a Function of Time
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34 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Module/Pack Level – Bus Bar Model
Electromagnetic FEA Analysis for Busbar
RLC Network Extraction
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35 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Full Battery Simulation
Voc = -1.031*exp(-35*(abs(IBatt.V/Vinit))) + 3.685 + 0.2156*(abs(IBatt.V/Vinit))
- 0.1178*(abs(IBatt.V/Vinit))^2 + 0.3201*(abs(IBatt.V/Vinit))^3 +
0.3/30.0*(U1.Temp_block_1-273)
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36 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
System Assembly
Battery ROM Inverter ROM Machine ROM
Embedded Software
Behavioral Models
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37 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
Conclusions
� Battery is a multi-scale multi-physics application.
� ANSYS provides tools for all aspects of battery
simulation.
� Furthermore, ANSYS integrates different models
into battery system level simulation through model
order reduction.
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38 © 2013 ANSYS, Inc. June 4, 2014 ANSYS Confidential
ROM gives the same
results as CFD. ROM
runs in less than 5
seconds while the CFD
runs 2 hours on one
single CPU.
X. Hu, S. Lin, S. Stanton, W. Lian, “A Foster Network Thermal Model for HEV/EV Battery
Modeling,” IEEE TRANSACTIONS ON INDUSTRY APPLICATIONS, VOL. 47, NO. 4, JULY/AUGUST 2011
X. Hu, S. Lin, S. Stanton, W. Lian, “A State Space Thermal Model for HEV/EV Battery Modeling",
SAE 2011-01-1364
Heat Profile
Module Level – ROM for Thermal