Test Method for Thermal Characterization of Li-Ion Cells and Verification of Cooling Concepts

Test Method for Thermal Characterization of Li-Ion Cells and Verification of Cooling Concepts

Temperature gradients, thermal cycling and temperatures outside the optimal operation range can have a significant influence on the reliability and lifetime of Li-ion battery cells. Therefore, it is essential for the developer of large-scale battery systems to know the thermal characteristics, such...

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Bibliographic Details
Main Authors: Rouven Christen, Gerhard Rizzo, Alfred Gadola, Max Stöck
Format: Article
Language:English
Published: MDPI AG 2017-01-01
Series:Batteries
Subjects:
testing
cell characterization
thermal management
heat generation
Online Access:http://www.mdpi.com/2313-0105/3/1/3
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spelling doaj-e8a4096d8eb640a0a52c279864ad2a452020-11-25T00:34:59ZengMDPI AGBatteries2313-01052017-01-0131310.3390/batteries3010003batteries3010003Test Method for Thermal Characterization of Li-Ion Cells and Verification of Cooling ConceptsRouven Christen0Gerhard Rizzo1Alfred Gadola2Max Stöck3Institute for Development of Mechatronic Systems, NTB Interstate University of Applied Sciences of Technology, Werdenbergstrasse 4, CH-9471 Buchs, SwitzerlandInstitute for Development of Mechatronic Systems, NTB Interstate University of Applied Sciences of Technology, Werdenbergstrasse 4, CH-9471 Buchs, SwitzerlandInstitute for Development of Mechatronic Systems, NTB Interstate University of Applied Sciences of Technology, Werdenbergstrasse 4, CH-9471 Buchs, SwitzerlandInstitute for Development of Mechatronic Systems, NTB Interstate University of Applied Sciences of Technology, Werdenbergstrasse 4, CH-9471 Buchs, SwitzerlandTemperature gradients, thermal cycling and temperatures outside the optimal operation range can have a significant influence on the reliability and lifetime of Li-ion battery cells. Therefore, it is essential for the developer of large-scale battery systems to know the thermal characteristics, such as heat source location, heat capacity and thermal conductivity, of a single cell in order to design appropriate cooling measures. This paper describes an advanced test facility, which allows not only an estimation of the thermal properties of a battery cell, but also the verification of proposed cooling strategies in operation. To do this, an active measuring unit consisting of a temperature and heat flux density sensor and a Peltier element was developed. These temperature/heat flux sensing (THFS) units are uniformly arranged around a battery cell with a spatial resolution of 25 mm. Consequently, the temperature or heat flux density can be controlled individually, thus forming regions with constant temperature (cooling) or zero heat flux (insulation). This test setup covers the whole development loop from thermal characterization to the design and verification of the proposed cooling strategy.http://www.mdpi.com/2313-0105/3/1/3testingcell characterizationthermal managementheat generation
collection DOAJ
language English
format Article
sources DOAJ
author Rouven Christen
Gerhard Rizzo
Alfred Gadola
Max Stöck
spellingShingle Rouven Christen
Gerhard Rizzo
Alfred Gadola
Max Stöck
Test Method for Thermal Characterization of Li-Ion Cells and Verification of Cooling Concepts
Batteries
testing
cell characterization
thermal management
heat generation
author_facet Rouven Christen
Gerhard Rizzo
Alfred Gadola
Max Stöck
author_sort Rouven Christen
title Test Method for Thermal Characterization of Li-Ion Cells and Verification of Cooling Concepts
title_short Test Method for Thermal Characterization of Li-Ion Cells and Verification of Cooling Concepts
title_full Test Method for Thermal Characterization of Li-Ion Cells and Verification of Cooling Concepts
title_fullStr Test Method for Thermal Characterization of Li-Ion Cells and Verification of Cooling Concepts
title_full_unstemmed Test Method for Thermal Characterization of Li-Ion Cells and Verification of Cooling Concepts
title_sort test method for thermal characterization of li-ion cells and verification of cooling concepts
publisher MDPI AG
series Batteries
issn 2313-0105
publishDate 2017-01-01
description Temperature gradients, thermal cycling and temperatures outside the optimal operation range can have a significant influence on the reliability and lifetime of Li-ion battery cells. Therefore, it is essential for the developer of large-scale battery systems to know the thermal characteristics, such as heat source location, heat capacity and thermal conductivity, of a single cell in order to design appropriate cooling measures. This paper describes an advanced test facility, which allows not only an estimation of the thermal properties of a battery cell, but also the verification of proposed cooling strategies in operation. To do this, an active measuring unit consisting of a temperature and heat flux density sensor and a Peltier element was developed. These temperature/heat flux sensing (THFS) units are uniformly arranged around a battery cell with a spatial resolution of 25 mm. Consequently, the temperature or heat flux density can be controlled individually, thus forming regions with constant temperature (cooling) or zero heat flux (insulation). This test setup covers the whole development loop from thermal characterization to the design and verification of the proposed cooling strategy.
topic testing
cell characterization
thermal management
heat generation
url http://www.mdpi.com/2313-0105/3/1/3
work_keys_str_mv AT rouvenchristen testmethodforthermalcharacterizationofliioncellsandverificationofcoolingconcepts
AT gerhardrizzo testmethodforthermalcharacterizationofliioncellsandverificationofcoolingconcepts
AT alfredgadola testmethodforthermalcharacterizationofliioncellsandverificationofcoolingconcepts
AT maxstock testmethodforthermalcharacterizationofliioncellsandverificationofcoolingconcepts
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