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Volume 32, Issue 5
9 September 2013
COMPEL - The international journal for computation and mathematics in electrical and electronic engineering Cover Image for Volume 32, Issue 5
Article Contents
Research Article| September 09 2013

The reduced basis method applied to transport equations of a lithium-ion battery Available to Purchase

Stefan Volkwein;
Stefan Volkwein
Institut für Mathematik und Statistik, Universität Konstanz, Konstanz, Deutschland
Stefan Volkwein can be contacted at: Stefan.Volkwein@uni-konstanz.de
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Andrea Wesche
Andrea Wesche
Institut für Mathematik und Statistik, Universität Konstanz, Konstanz, Deutschland and GME Vehicle CAE, Adam Opel AG, Rüsselsheim, Deutschland
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Author & Article Information
Stefan Volkwein can be contacted at: Stefan.Volkwein@uni-konstanz.de
Publisher: Emerald Publishing
Online ISSN: 2054-5606
Print ISSN: 0332-1649
© Emerald Group Publishing Limited
2013
COMPEL (2013) 32 (5): 1760–1772.
https://doi.org/10.1108/COMPEL-04-2013-0115
Purpose

– In this paper, the authors aim to show how to apply the reduced basis method to the transport equations of a lithium-ion battery.

Design/methodology/approach

– The authors consider a coupled system of nonlinear parameterized partial differential equations (P2DEs), which models the concentrations and the potentials in lithium-ion batteries.

Findings

– The authors develop an efficient reduced basis approach for the fast and robust numerical solution of the P2DE system.

Originality/value

– By the reduced basis method, the authors get (reduced) solutions with a speed up factor of up to 18 in the presented examples in comparison to the original finite volume solutions.

Keywords:
Finite volume method, greedy algorithm, lithium-ion battery, reduced basis method, Electric cells
© Emerald Group Publishing Limited
2013
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