Effect of Thickness on Performance of Thermal Management System for a Prismatic Lithium‐Ion Battery Using Phase Change Material DOI Open Access
Uğur Moralı

Energy Storage, Journal Year: 2025, Volume and Issue: 7(1)

Published: Jan. 29, 2025

ABSTRACT Phase change material cooling method as a zero energy consumption system has good prospect in battery thermal management systems. Therefore, the response of lithium‐ion presence phase was explored this study. The subjected to high discharge conditions (5 C‐rate) at ambient temperatures (35°C and 40°C). results showed that usage materials with thickness 1 mm can reduce temperature deliver better difference battery. Results also revealed for 14.6 Ah under 5 C rate, maximum from 51.64°C 35°C 55.85°C 40°C (without material) 43.04°C 43.81°C, respectively. It concluded manage desirable range an extreme rate C. obtained study be used guidance design systems including materials.

Language: Английский

Effect of Thickness on Performance of Thermal Management System for a Prismatic Lithium‐Ion Battery Using Phase Change Material DOI Open Access
Uğur Moralı

Energy Storage, Journal Year: 2025, Volume and Issue: 7(1)

Published: Jan. 29, 2025

ABSTRACT Phase change material cooling method as a zero energy consumption system has good prospect in battery thermal management systems. Therefore, the response of lithium‐ion presence phase was explored this study. The subjected to high discharge conditions (5 C‐rate) at ambient temperatures (35°C and 40°C). results showed that usage materials with thickness 1 mm can reduce temperature deliver better difference battery. Results also revealed for 14.6 Ah under 5 C rate, maximum from 51.64°C 35°C 55.85°C 40°C (without material) 43.04°C 43.81°C, respectively. It concluded manage desirable range an extreme rate C. obtained study be used guidance design systems including materials.

Language: Английский

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