Model of Battery Capacity Attenuation at Low Temperature

Hongwei Wang; Jun Liu; Weizhe Zhao; Yusong Zhu; Bin Hu; Yanling Fu; Ziqiang Tao

doi:10.1088/1755-1315/565/1/012016

Model of Battery Capacity Attenuation at Low Temperature

Hongwei Wang, Jun Liu, Weizhe Zhao, Yusong Zhu, Bin Hu, Yanling Fu, Ziqiang Tao

School of energy science and engineering

Research output: Contribution to journal › Conference article › peer-review

6 Scopus citations

Abstract

Lithium-ion batteries are widely applied for its advantages of being high in energy density, low in self-discharge rate, and high in maximal cycles, having no memory effect, and being pollutant-free. Accurately predicting the service lives of lithium-ion batteries is the important basis for reasonably working out battery replacement policy and ensuring safe use. For the purpose of this article, an acceleration model is devised for the valid period of capacity and the effect of temperature on lithium-ion batteries, revealing the pattern in the effects of capacity-related factors, and providing the fundemental data for the use of batteries at low temperatures.

Original language	English
Article number	012016
Journal	IOP Conference Series: Earth and Environmental Science
Volume	565
Issue number	1
DOIs	https://doi.org/10.1088/1755-1315/565/1/012016
State	Published - 30 Sep 2020
Event	2020 6th International Conference on Energy Science and Chemical Engineering, ICESCE 2020 - Dali, China Duration: 17 Jul 2020 → 19 Jul 2020

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10.1088/1755-1315/565/1/012016

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title = "Model of Battery Capacity Attenuation at Low Temperature",

abstract = "Lithium-ion batteries are widely applied for its advantages of being high in energy density, low in self-discharge rate, and high in maximal cycles, having no memory effect, and being pollutant-free. Accurately predicting the service lives of lithium-ion batteries is the important basis for reasonably working out battery replacement policy and ensuring safe use. For the purpose of this article, an acceleration model is devised for the valid period of capacity and the effect of temperature on lithium-ion batteries, revealing the pattern in the effects of capacity-related factors, and providing the fundemental data for the use of batteries at low temperatures.",

author = "Hongwei Wang and Jun Liu and Weizhe Zhao and Yusong Zhu and Bin Hu and Yanling Fu and Ziqiang Tao",

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T1 - Model of Battery Capacity Attenuation at Low Temperature

AU - Wang, Hongwei

AU - Liu, Jun

AU - Zhao, Weizhe

AU - Zhu, Yusong

AU - Hu, Bin

AU - Fu, Yanling

AU - Tao, Ziqiang

PY - 2020/9/30

Y1 - 2020/9/30

N2 - Lithium-ion batteries are widely applied for its advantages of being high in energy density, low in self-discharge rate, and high in maximal cycles, having no memory effect, and being pollutant-free. Accurately predicting the service lives of lithium-ion batteries is the important basis for reasonably working out battery replacement policy and ensuring safe use. For the purpose of this article, an acceleration model is devised for the valid period of capacity and the effect of temperature on lithium-ion batteries, revealing the pattern in the effects of capacity-related factors, and providing the fundemental data for the use of batteries at low temperatures.

AB - Lithium-ion batteries are widely applied for its advantages of being high in energy density, low in self-discharge rate, and high in maximal cycles, having no memory effect, and being pollutant-free. Accurately predicting the service lives of lithium-ion batteries is the important basis for reasonably working out battery replacement policy and ensuring safe use. For the purpose of this article, an acceleration model is devised for the valid period of capacity and the effect of temperature on lithium-ion batteries, revealing the pattern in the effects of capacity-related factors, and providing the fundemental data for the use of batteries at low temperatures.

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AN - SCOPUS:85092762848

SN - 1755-1307

VL - 565

JO - IOP Conference Series: Earth and Environmental Science

JF - IOP Conference Series: Earth and Environmental Science

IS - 1

M1 - 012016

T2 - 2020 6th International Conference on Energy Science and Chemical Engineering, ICESCE 2020

Y2 - 17 July 2020 through 19 July 2020

ER -

Model of Battery Capacity Attenuation at Low Temperature

Abstract

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