| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 766053 | Energy Conversion and Management | 2011 | 9 Pages |
Transient and thermo-electric finite element analysis (FEA) of cylindrical lithium ion (Li-ion) battery was presented. The simplified model by adopting a cylindrical coordinate was employed. This model provides the thermal behavior of Li-ion battery during discharge cycle. The mathematical model solves conservation of energy considering heat generations due to both joule heating and entropy change. A LiCoO2/C battery at various discharge rates was investigated. The temperature profile from simulation had similar tendency with experiment. The temperature profile was decomposed with contributions of each heat sources and was presented at several discharge rates. It was found that the contribution of heat source due to joule heating was significant at a high discharge rate, whereas that due to entropy change was dominant at a low discharge rate. Also the effect of cooling condition and the LiNiCoMnO2/C battery were analyzed for the purpose of temperature reduction.
► Transient and thermo-electric finite element analysis (FEA) of cylindrical lithium ion (Li-ion) battery was presented. ► This model provides the thermal behavior of Li-ion battery during discharge cycle. ► A LiCoO2/C battery at various discharge rates was investigated. ► The contribution of heat source due to joule heating was significant at a high discharge rate. ► The contribution of heat source due to entropy change was dominant at a low discharge rate.
