Cooling performance and optimization of a thermal management system based on CO2 heat pump for electric vehicles

热泵 环境科学 热的 电子设备和系统的热管理 水冷 汽车工程 核工程 工程类 机械工程 气象学 热交换器 物理
作者
Panpan Song,Zhongyan An,Mingshan Wei,Xiaoxia Sun,Yihang Zhao,Dan Dan,Yangjun Zhang
出处
期刊:Energy Conversion and Management [Elsevier BV]
卷期号:306: 118299-118299 被引量:19
标识
DOI:10.1016/j.enconman.2024.118299
摘要

Efficient integrated thermal management scheme is crucial for improving the driving range, thermal comfort, and safety of electric vehicles. Compared with the synthetic refrigerant heat pump indirect cooling/heating on the vehicle electrical system, the natural refrigerant CO2 heat pump direct thermal controlling integrated into the thermal management system has advantages in the thermal cycle performance and environmental friendliness. The present study proposed a thermal management system based on CO2 heat hump with multiple working modes for enhancing vehicle energy utilization coefficient. The system thermal performance under the World Light Vehicle Test Cycle was investigated via energy and exergy analyses. The operational control strategies of the thermal management system were optimized for the thermal controls of the cabin, battery and motor. The results show that the minimum exergy destruction of the thermal system occurs at the optimal discharge pressure corresponding to the highest coefficient of performance. Ensuring two-phase latent heat transfer for battery cooling is the most effective measure to maintain battery temperature uniformity via dynamic collaborative regulation of expansion valves' openings and compressor speed. Compared with constant expansion valve's opening, the coefficient of performance of the system can be improved by a maximum of 10% with the saturated CO2 vapor at the outlet of battery cooling plate. Due to the low thermal capacitance and minimal thermal inertia of driving motor, its cooling performance is significantly influenced by the heat generation rate and refrigerant flow. Optimal motor cooling efficiency is achieved when controlling the refrigerant quality to 0.85 at the cooling passage outlet. Under the World Light Vehicle Test Cycle, the thermal management system effectively regulated the temperatures across different operating modes while operating at optimal discharge pressures.
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