Study of Temperature Impacts on a Lithium-Ion Battery Thermal Behaviour by Employing Isothermal Calorimeter

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Abstract

Present research explores the impact of operation temperature of a 13 Ah Lithium Titanate Oxid (LTO) battery cell on its thermal behaviour, heat generation, efficiency and maximum temperature. To accomplish this, different loading patterns were applied to the battery. The experiments were accomplished at several charge and discharge cycles with different C-rates. Temperature is one of the most important parameters, which have considerable impacts on the capacity, cycle lifetime, safety and heat generation of lithium-ion batteries. Notwithstanding, the comprehensive and detail effects of temperature on the heat generation of lithium-ion batteries is necessary to be found. The findings allow us to have a better understanding of the effect of temperature on different aspect of the battery ell. The results will assists on a precise thermal model of the battery. In addition it can improve the thermal management systems.
Original languageEnglish
JournalECS Transactions
Volume87
Issue number1
Pages (from-to)295-305
Number of pages11
ISSN1938-6737
DOIs
Publication statusPublished - Aug 2018

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Calorimeters
Heat generation
Temperature
Temperature control
Lithium
Lithium-ion batteries
Hot Temperature
Experiments

Cite this

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title = "Study of Temperature Impacts on a Lithium-Ion Battery Thermal Behaviour by Employing Isothermal Calorimeter",
abstract = "Present research explores the impact of operation temperature of a 13 Ah Lithium Titanate Oxid (LTO) battery cell on its thermal behaviour, heat generation, efficiency and maximum temperature. To accomplish this, different loading patterns were applied to the battery. The experiments were accomplished at several charge and discharge cycles with different C-rates. Temperature is one of the most important parameters, which have considerable impacts on the capacity, cycle lifetime, safety and heat generation of lithium-ion batteries. Notwithstanding, the comprehensive and detail effects of temperature on the heat generation of lithium-ion batteries is necessary to be found. The findings allow us to have a better understanding of the effect of temperature on different aspect of the battery ell. The results will assists on a precise thermal model of the battery. In addition it can improve the thermal management systems.",
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Study of Temperature Impacts on a Lithium-Ion Battery Thermal Behaviour by Employing Isothermal Calorimeter. / Madani, Seyed Saeed; Schaltz, Erik; Kær, Søren Knudsen.

In: ECS Transactions, Vol. 87, No. 1, 08.2018, p. 295-305.

Research output: Contribution to journalJournal articleResearchpeer-review

TY - JOUR

T1 - Study of Temperature Impacts on a Lithium-Ion Battery Thermal Behaviour by Employing Isothermal Calorimeter

AU - Madani, Seyed Saeed

AU - Schaltz, Erik

AU - Kær, Søren Knudsen

PY - 2018/8

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N2 - Present research explores the impact of operation temperature of a 13 Ah Lithium Titanate Oxid (LTO) battery cell on its thermal behaviour, heat generation, efficiency and maximum temperature. To accomplish this, different loading patterns were applied to the battery. The experiments were accomplished at several charge and discharge cycles with different C-rates. Temperature is one of the most important parameters, which have considerable impacts on the capacity, cycle lifetime, safety and heat generation of lithium-ion batteries. Notwithstanding, the comprehensive and detail effects of temperature on the heat generation of lithium-ion batteries is necessary to be found. The findings allow us to have a better understanding of the effect of temperature on different aspect of the battery ell. The results will assists on a precise thermal model of the battery. In addition it can improve the thermal management systems.

AB - Present research explores the impact of operation temperature of a 13 Ah Lithium Titanate Oxid (LTO) battery cell on its thermal behaviour, heat generation, efficiency and maximum temperature. To accomplish this, different loading patterns were applied to the battery. The experiments were accomplished at several charge and discharge cycles with different C-rates. Temperature is one of the most important parameters, which have considerable impacts on the capacity, cycle lifetime, safety and heat generation of lithium-ion batteries. Notwithstanding, the comprehensive and detail effects of temperature on the heat generation of lithium-ion batteries is necessary to be found. The findings allow us to have a better understanding of the effect of temperature on different aspect of the battery ell. The results will assists on a precise thermal model of the battery. In addition it can improve the thermal management systems.

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