This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
Degradation Testing and Modeling of 200 Ah LiFePO 4 Battery
Technical Paper
2018-01-0441
ISSN: 0148-7191, e-ISSN: 2688-3627
This content contains downloadable datasets
Annotation ability available
Sector:
Language:
English
Abstract
In this paper, a degradation testing of a lithium-ion battery used for an electric vehicle (EV) is performed and the capacity fade is measured over 400 cycles. For this, a 200 Ah LiFePO4 battery cell is tested under ambient temperature conditions with charge-discharge cycles at rate of 1C (constant current). Additionally, individual cell characterization is conducted using a C/25 (0.8A) charge-discharge cycle and hybrid pulse power characterization (HPPC). Later, the Thevenin battery model was constructed in MATLAB along with an empirical degradation model and validated in terms of voltage for all cycles. It is also found that the presented model closely estimated the profiles observed in the experimental data. Data collected from the experimental results showed that a capacity fade occurred over the 400 cycles and the discharge capacity at the end of 400th cycle is found to be 137.73 Ah. The error between model/experiments is found to be less than 3.5% for all cycles.
Recommended Content
Authors
Citation
Panchal, S., Rashid, M., Long, F., Mathew, M. et al., "Degradation Testing and Modeling of 200 Ah LiFePO4 Battery," SAE Technical Paper 2018-01-0441, 2018, https://doi.org/10.4271/2018-01-0441.Data Sets - Support Documents
Title | Description | Download |
---|---|---|
Unnamed Dataset 1 | ||
Unnamed Dataset 2 | ||
Unnamed Dataset 3 |
Also In
References
- Wang , Q. , Sun , Q. , Ping , P. , Zhao , X. et al. Heat Transfer in the Dynamic Cycling of Lithium-Titanate Batteries International Journal of Heat and Mass Transfer 93 896 905 2016
- Ling , Z. , Wang , F. , Fang , X. , Gao , X. , and Zhang , Z. A Hybrid Thermal Management System for Lithium Ion Batteries Combining Phase Change Materials with Forced-Air Cooling Applied Energy 148 403 409 2015
- Ritchie , A. and Howard , W. Recent Developments and Likely Advances in Lithium-Ion Batteries Journal of Power Sources 162 809 812 2006
- Ye , Y. , Saw , L.H. , Shi , Y. , and Tay , A.A. Numerical Analyses on Optimizing a Heat Pipe Thermal Management System for Lithium-Ion Batteries during Fast Charging Applied Thermal Engineering 86 281 291 2015
- Ramadesigan , V. , Northrop , P.W.C. , De , S. , Santhanagopalan , S. et al. Modeling and Simulation of Lithium-Ion Batteries from a Systems Engineering Perspective Journal of the Electrochemical Society 159 3 R31 R45 2012
- Malik , M. , Dincer , I. , and Rosen , M. Review on Use of Phase Change Materials in Battery Thermal Management for Electric and Hybrid Electric Vehicles International Journal of Energy Research 40 8 1011 1031 2016
- Wu , B. , Yufit , V. , Marinescu , M. , Offer , G.J. et al. Coupled Thermal-Electrochemical Modelling of Uneven Heat Generation in Lithium-Ion Battery Packs Journal of Power Sources 243 544 554 2013
- Panchal , S. , Dincer , I. , Agelin-Chaab , M. , Fraser , R. , and Fowler , M. Experimental and Theoretical Investigation of Temperature Distributions in a Prismatic Lithium-Ion Battery International Journal of Thermal Sciences 99 204 212 2016
- Panchal , S. , Dincer , I. , Agelin-Chaab , M. , Fraser , R. , and Fowler , M. Thermal Modeling and Validation of Temperature Distributions in a Prismatic Lithium-Ion Battery at Different Discharge Rates and Varying Boundary Conditions Applied Thermal Engineering 96 190 199 2016
- Panchal , S. , Mathewson , S. , Fraser , R. , Culham , R. , and Fowler , M. Thermal Management of Lithium-Ion Pouch Cell with Indirect Liquid Cooling Using Dual Cold Plates Approach SAE Int. 4 2 293 307 2015
- Kang , J. and Rizzoni , G. Study of Relationship between Temperature and Thermal Energy, Operating Conditions As Well as Environmental Factors in Large-Scale Lithium-Ion Batteries International Journal of Energy Research 38 15 1994 2002 2014
- Yeow , K. , Thelliez , M. , Teng , H. , and Tan , E. Thermal Analysis of a Li-Ion Battery System with Indirect Liquid Cooling Using Finite Element Analysis Approach SAE Int. J. 1 1 65 78 2012
- Shao-Horn , L.Y. , Delmas , C. , Nelson , C.E. , and O'Keefe , M.A. Atomic Resolution of Lithium Ions in LiCoO 2 Nature Materials 2 464 467 2003
- Julien , C. Local Structure of Lithiated Manganese Oxides Solid State Ionics 177 11 19 2006
- Bloking , J.T. , Chung , S.Y. , and Chiang , Y.M. Electrically Conductive Phospho-Olivines as Lithium Storage Electrodes Nature Materials 1 123 128 2002
- Ma , Y. , Chang , H. , Zhang , M. , and Chen , Y. Graphene-Based Materials for Lithium-Ion Hybrid Supercapacitors Advanced Materials 27 36 5296 5308 2015
- Dahn , J. and Ehrlich , G.M. “Lithium-Ion Batteries,” in Linden’s Handbook of Batteries New York McGraw Hill 2011 26.1 26.79
- Yi , J. , Kim , U.S. , Shin , C.B. , Han , T. , and Park , S. Three-Dimensional Thermal Modeling of a Lithium-Ion Battery Considering the Combined Effects of the Electrical and Thermal Contact Resistances between Current Collecting Tab and Lead Wire Journal of the Electrochemical Society 160 3 437 443 2013
- Anderson , D. Sustainable Manufacturer Network
- Panchal , S. , Dincer , I. , Agelin-Chaab , M. , Fraser , R. , and Fowler , M. Experimental and Theoretical Investigations of Heat Generation Rates for a Water Cooled LiFePO4 Battery International Journal of Heat and Mass Transfer 101 1093 1102 2016
- Panchal , S. , Dincer , I. , Agelin-Chaab , M. , Fraser , R. , and Fowler , M. Transient Electrochemical Heat Transfer Modeling and Experimental Validation of a Large Sized LiFePO 4 /Graphite Battery International Journal of Heat and Mass Transfer 109 1239 1251 2017
- Samadani , E. , Farhad , S. , Panchal , S. , Fraser , R. , et al. 2014-01-1848
- Li , S. , Xiaosong , H. , and Peng , H. A Comparative Study of Equivalent Circuit Models for Li-Ion Batteries Journal of Power Sources 198 359 367 2012
- Castano , S. , Gauchia , L. , Sanz , J. , and Voncila , E. Dynamical Modeling Procedure of a Li-Ion Battery Pack suitable for Real-Time Applications Energy Conversion and Management 92 396 405 2015
- Panchal , S. , Mcgrory , J. , Kong , J. , Fraser , R. et al. Cycling Degradation Testing and Analysis of a LiFePO4 battery at Actual Conditions International Journal of Energy Research 41 2565 2575 2017
- Sbarufatti , C. , Corbetta , M. , Gigilio , M. , and Cadini , F. Adaptive Prognosis of Lithium-Ion Batteries Based on the Combination of Particle Filters and Radial Basis Function Neural Networks Journal of Power Sources 344 128 140 2017
- He , H. , Xiong , R. , and Guo , H. Online Estimation of Model Parameters and State-of-Charge of LiFePO4 Batteries in Electric Vehicles Applied Energy 89 1 413 420 2012
- Yi , J. , Koo , B. , Shin , C.B. , Han , T. , and Park , S. Modeling the Effect of Aging on the Electrical and Thermal Behaviors of a Lithium-Ion Battery during Constant Current Charge and Discharge Cycling Computers & Chemical Engineering 99 31 39 2017
- Hu , X. , Li , S. , and Peng , H. A Comparative Study of Equivalent Circuit Models for Li-Ion Batteries Journal of Power Sources 198 359 367 2012
- Samadani , E. , Mastali , M. , Farhad , S. , Fraser , R. , and Fowler , M. Li-Ion Battery Performance and Degradation in Electric Vehicles under Different Usage Scenarios International Journal of Energy Research 40 379 392 2015
- Schmalstieg , J. , Käbitz , S. , Ecker , M. , and Sau , D.U. A Holistic Aging Model for Li(NiMnCo)O 2 Based 18650 Lithium-Ion Batteries Journal of Power Sources 257 325 334 2014