Improving battery design with electro-thermal modeling

Author

Bharathan, Desikan ; Pesaran, Ahmad ; Vlahinos, Andreas ; Kim, Gi-Heon

Author_Institution

Nat. Renewable Energy Lab., Golden, CO, USA

fYear

2005

fDate

7-9 Sept. 2005

Abstract

Operating temperature greatly affects the performance and life of batteries in electric and hybrid vehicles. Increased attention is necessary to battery thermal management. Electrochemical models and finite element analysis tools are available for predicting the thermal performance of batteries, but each has limitations. In this study we describe an electro-thermal finite element approach that predicts the thermal performance of a cell or module with realistic geometry. To illustrate the process, we simulated the thermal performance of two generations of Panasonic prismatic nickel-metal-hydride modules used in the Toyota Prius. The model showed why the new generation of Panasonic modules had better thermal performance. Thermal images from two battery modules under constant current discharge indicate that the model predicts the experimental trend reasonably well.

Keywords

battery management systems; battery powered vehicles; finite element analysis; hybrid electric vehicles; nickel compounds; battery thermal management; current discharge; electric vehicles; electro-thermal modeling; finite element analysis; hybrid vehicle; nickel-metal-hydride; thermal image; Battery management systems; Connectors; Design automation; Energy management; Finite element methods; Geometry; Hybrid electric vehicles; Performance analysis; Predictive models; Thermal management; HEV (hybrid electric vehicle); battery model; nickel metal hydride; simulation; thermal management;

fLanguage

English

Publisher

ieee

Conference_Titel

Vehicle Power and Propulsion, 2005 IEEE Conference

Print_ISBN

0-7803-9280-9

Type

conf

DOI

10.1109/VPPC.2005.1554584

Filename

1554584