Two-dimensional Thermal Modeling of Lithium-ion Battery Cell Based on Electrothermal Impedance Spectroscopy

Maciej Jozef Swierczynski; Daniel Loan Stroe; Vaclav Knap; Søren Knudsen Kær; Remus Teodorescu

doi:10.1149/07211.0033ecst

Two-dimensional Thermal Modeling of Lithium-ion Battery Cell Based on Electrothermal Impedance Spectroscopy

Maciej Jozef Swierczynski, Daniel Loan Stroe, Vaclav Knap, Søren Knudsen Kær, Remus Teodorescu

Publikation: Bidrag til tidsskrift › Konferenceartikel i tidsskrift › Forskning › peer review

2 Citationer (Scopus)

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Abstract

Thermal modeling of lithium-ion batteries is gaining its importance together with increasing power density and compact design of the modern battery systems in order to assure battery safety and long lifetime. Thermal models of lithium-ion batteries are usually either expensive to develop and accurate or equivalent thermal circuit based with moderate accuracy and without spatial temperature distribution.
This work presents initial results that can be used as a fundament for the cost-efficient development of the two-dimensional thermal model of lithium-ion battery based on multipoint electrothermal impedance spectroscopy.

Originalsprog	Engelsk
Tidsskrift	ECS Transactions
Vol/bind	72
Udgave nummer	11
Sider (fra-til)	33-38
Antal sider	6
ISSN	1938-6737
DOI	https://doi.org/10.1149/07211.0033ecst
Status	Udgivet - maj 2016
Begivenhed	229th ECS Meeting - San Diego, USA Varighed: 29 maj 2016 → 2 jun. 2016

Konference

Konference	229th ECS Meeting
Land/Område	USA
By	San Diego
Periode	29/05/2016 → 02/06/2016

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10.1149/07211.0033ecst

Two-dimensional Thermal Modeling of Lithium-ion Battery Cell Based on Electrothermal Impedance SpectroscopyAccepteret manuskript, 274 KB

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Citationsformater

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abstract = "Thermal modeling of lithium-ion batteries is gaining its importance together with increasing power density and compact design of the modern battery systems in order to assure battery safety and long lifetime. Thermal models of lithium-ion batteries are usually either expensive to develop and accurate or equivalent thermal circuit based with moderate accuracy and without spatial temperature distribution.This work presents initial results that can be used as a fundament for the cost-efficient development of the two-dimensional thermal model of lithium-ion battery based on multipoint electrothermal impedance spectroscopy.",

author = "Swierczynski, {Maciej Jozef} and Stroe, {Daniel Loan} and Vaclav Knap and K{\ae}r, {S{\o}ren Knudsen} and Remus Teodorescu",

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AU - Swierczynski, Maciej Jozef

AU - Stroe, Daniel Loan

AU - Knap, Vaclav

AU - Kær, Søren Knudsen

AU - Teodorescu, Remus

PY - 2016/5

Y1 - 2016/5

N2 - Thermal modeling of lithium-ion batteries is gaining its importance together with increasing power density and compact design of the modern battery systems in order to assure battery safety and long lifetime. Thermal models of lithium-ion batteries are usually either expensive to develop and accurate or equivalent thermal circuit based with moderate accuracy and without spatial temperature distribution.This work presents initial results that can be used as a fundament for the cost-efficient development of the two-dimensional thermal model of lithium-ion battery based on multipoint electrothermal impedance spectroscopy.

AB - Thermal modeling of lithium-ion batteries is gaining its importance together with increasing power density and compact design of the modern battery systems in order to assure battery safety and long lifetime. Thermal models of lithium-ion batteries are usually either expensive to develop and accurate or equivalent thermal circuit based with moderate accuracy and without spatial temperature distribution.This work presents initial results that can be used as a fundament for the cost-efficient development of the two-dimensional thermal model of lithium-ion battery based on multipoint electrothermal impedance spectroscopy.

U2 - 10.1149/07211.0033ecst

DO - 10.1149/07211.0033ecst

M3 - Conference article in Journal

SN - 1938-6737

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JF - ECS Transactions

IS - 11

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ER -

Two-dimensional Thermal Modeling of Lithium-ion Battery Cell Based on Electrothermal Impedance Spectroscopy

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