Mathematical Model for the Design of Grids for Electric Vehicle Batteries 780221
The potential and current distribution over the grid of a lead-acid battery can be calculated by applying Kirchoff's Law to a three-dimensional resistance network analog. Such a model was used to simulate the highrate discharge of a typical grid having a conventional, uniform pattern of grid members. The potential and current density were found to vary widely over the grid surface. Modifications to the design of the grid make the potential and current density distribution more uniform, which would lead to more efficient utilization of the battery active materials, and an improved battery performance.
Citation: Vaaler, L. and Brooman, E., "Mathematical Model for the Design of Grids for Electric Vehicle Batteries," SAE Technical Paper 780221, 1978, https://doi.org/10.4271/780221. Download Citation
Author(s):
Luther E. Vaaler, Eric W. Brooman
Affiliated:
BATTELLE, Columbus Labs Columbus, OH
Pages: 8
Event:
1978 Automotive Engineering Congress and Exposition
ISSN:
0148-7191
e-ISSN:
2688-3627
Also in:
SAE 1978 Transactions-V87-A
Related Topics:
Lead-acid batteries
Electric vehicles
Mathematical models
Batteries
Electric power grid
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Logistics
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