Your search keyword '"Cold plate"' showing total 5 results

1. Numerical Study on Cross-Linked Cold Plate Design for Thermal Management of High-Power Lithium-Ion Battery.

Author

Yang, Huizhu, Wang, Zehui, Li, Mingxuan, Ren, Fengsheng, and Ma, Binjian

Subjects

BATTERY management systems, LITHIUM-ion batteries, STRUCTURAL design, ENERGY consumption, COOLING systems

Abstract

Liquid cooling strategies such as cold plates have been widely employed as an effective approach for battery thermal management systems (BTMS) due to their high cooling capacity and low power consumption. The structural design of the cold plates is the key factor that directly determines the thermal performance of the liquid cooling system. In this study, seven Z-type parallel channel cold plate and two novel cross-linked channel cold plate designs are proposed for the cooling of high-power lithium-ion batteries using two different cooling strategies. The average battery temperature, battery temperature uniformity and energy consumption of all designs are firstly analyzed holistically by three-dimensional conjugated simulation under the scheme of continuous cooling. Two selected designs that demonstrated superior performance (i.e., a Z-type parallel channel cold plate with 8-branches and an improved cross-linked channel design) are further analyzed to explore their integrative performance under different cooling schemes. The results show that within a battery temperature limit of 40 °C, employing the delayed cooling strategy can save 23% energy consumption compared to the continuous cooling strategy. Besides, the cold plate with an improved cross-linked channel configuration requires 13% less pumping power and provides a better temperature uniformity than the Z-type parallel channel cold plate with 8-branches. These results are of great significance to advance the cooling design of BTMS. [ABSTRACT FROM AUTHOR]

Published

2023

2. Numerical Study on Cross-Linked Cold Plate Design for Thermal Management of High-Power Lithium-Ion Battery

Author

Huizhu Yang, Zehui Wang, Mingxuan Li, Fengsheng Ren, and Binjian Ma

Subjects

lithium-ion battery, thermal management, cold plate, continuous and delayed cooling, cross-linked channel, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Industrial electrochemistry, TP250-261

Abstract

Liquid cooling strategies such as cold plates have been widely employed as an effective approach for battery thermal management systems (BTMS) due to their high cooling capacity and low power consumption. The structural design of the cold plates is the key factor that directly determines the thermal performance of the liquid cooling system. In this study, seven Z-type parallel channel cold plate and two novel cross-linked channel cold plate designs are proposed for the cooling of high-power lithium-ion batteries using two different cooling strategies. The average battery temperature, battery temperature uniformity and energy consumption of all designs are firstly analyzed holistically by three-dimensional conjugated simulation under the scheme of continuous cooling. Two selected designs that demonstrated superior performance (i.e., a Z-type parallel channel cold plate with 8-branches and an improved cross-linked channel design) are further analyzed to explore their integrative performance under different cooling schemes. The results show that within a battery temperature limit of 40 °C, employing the delayed cooling strategy can save 23% energy consumption compared to the continuous cooling strategy. Besides, the cold plate with an improved cross-linked channel configuration requires 13% less pumping power and provides a better temperature uniformity than the Z-type parallel channel cold plate with 8-branches. These results are of great significance to advance the cooling design of BTMS.

Published

2023

3. Thermal Analysis of Cold Plate with Different Configurations for Thermal Management of a Lithium-Ion Battery.

Author

Madani, Seyed Saeed, Schaltz, Erik, and Kær, Søren Knudsen

Subjects

THERMAL analysis, CONFIGURATION management, ELECTRIC vehicle batteries, LITHIUM-ion batteries, TEMPERATURE distribution

Abstract

Thermal analysis and thermal management of lithium-ion batteries for utilization in electric vehicles is vital. In order to investigate the thermal behavior of a lithium-ion battery, a liquid cooling design is demonstrated in this research. The influence of cooling direction and conduit distribution on the thermal performance of the lithium-ion battery is analyzed. The outcomes exhibit that the appropriate flow rate for heat dissipation is dependent on different configurations for cold plate. The acceptable heat dissipation condition could be acquired by adding more cooling conduits. Moreover, it was distinguished that satisfactory cooling direction could efficiently enhance the homogeneity of temperature distribution of the lithium-ion battery. [ABSTRACT FROM AUTHOR]

Published

2020

4. Thermal Analysis of Cold Plate with Different Configurations for Thermal Management of a Lithium-Ion Battery

Author

Seyed Saeed Madani, Erik Schaltz, and Søren Knudsen Kær

Subjects

lithium-ion batteries, thermal analysis, cold plate, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Industrial electrochemistry, TP250-261

Abstract

Thermal analysis and thermal management of lithium-ion batteries for utilization in electric vehicles is vital. In order to investigate the thermal behavior of a lithium-ion battery, a liquid cooling design is demonstrated in this research. The influence of cooling direction and conduit distribution on the thermal performance of the lithium-ion battery is analyzed. The outcomes exhibit that the appropriate flow rate for heat dissipation is dependent on different configurations for cold plate. The acceptable heat dissipation condition could be acquired by adding more cooling conduits. Moreover, it was distinguished that satisfactory cooling direction could efficiently enhance the homogeneity of temperature distribution of the lithium-ion battery.

Published

2020

5. Thermal Analysis of Cold Plate with Different Configurations for Thermal Management of a Lithium-Ion Battery

Author

Søren Knudsen Kær, Erik Schaltz, and Seyed Saeed Madani

Subjects

Lithium-ion batteries, Materials science, Computer cooling, Cold plate, Nuclear engineering, lithium-ion batteries, Energy Engineering and Power Technology, Lithium-ion battery, Volumetric flow rate, lcsh:Production of electric energy or power. Powerplants. Central stations, Electrical conduit, lcsh:Industrial electrochemistry, lcsh:TK1001-1841, Thermal, Homogeneity (physics), cold plate, Electrochemistry, Thermal analysis, Electrical and Electronic Engineering, thermal analysis, lcsh:TP250-261

Abstract

Thermal analysis and thermal management of lithium-ion batteries for utilization in electric vehicles is vital. In order to investigate the thermal behavior of a lithium-ion battery, a liquid cooling design is demonstrated in this research. The influence of cooling direction and conduit distribution on the thermal performance of the lithium-ion battery is analyzed. The outcomes exhibit that the appropriate flow rate for heat dissipation is dependent on different configurations for cold plate. The acceptable heat dissipation condition could be acquired by adding more cooling conduits. Moreover, it was distinguished that satisfactory cooling direction could efficiently enhance the homogeneity of temperature distribution of the lithium-ion battery.

Published

2020