Using Latent Heat Storage for Improving Battery Electric Vehicle Thermal Management System Efficiency

IF 0.7 Q4 TRANSPORTATION SCIENCE & TECHNOLOGY

SAE International Journal of Electrified Vehicles Pub Date : 2023-12-20 DOI:10.4271/14-13-02-0012

Zhou Wei, Jiangbin Zhou, Christian Rathberger

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引用次数: 0

Abstract

One of the key problems of battery electric vehicles is the risk of severe range reduction in winter conditions. Technologies such as heat pump systems can help to mitigate such effects, but finding adequate heat sources for the heat pump sometimes can be a problem, too. In cold ambient conditions below −10°C and for a cold-soaked vehicle this can become a limiting factor. Storing waste heat or excess cold when it is generated and releasing it to the vehicle thermal management system later can reduce peak thermal requirements to more manageable average levels. In related architectures it is not always necessary to replace existing electric heaters or conventional air-conditioning systems. Sometimes it is more efficient to keep them and support them, instead. Accordingly, we show, how latent heat storage can be used to increase the efficiency of existing, well-established heating and cooling technologies without replacing them. We investigate different possibilities for the integration of phase change materials into a baseline battery electric vehicle thermal management system and compare the resulting benefits.

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利用潜热存储提高电池电动汽车热管理系统的效率

电池电动汽车的主要问题之一是在冬季条件下续航里程可能会严重缩短。热泵系统等技术可以帮助减轻这种影响，但有时为热泵寻找足够的热源也是一个问题。在-10°C以下的寒冷环境条件下，对于冷浸车辆来说，这可能成为一个限制因素。将产生的废热或多余的冷量储存起来，然后再释放给车辆热管理系统，可以将峰值热需求降至更易于管理的平均水平。在相关结构中，并不总是需要更换现有的电加热器或传统空调系统。有时，保留并支持它们反而更有效。因此，我们展示了如何利用潜热储存来提高现有成熟加热和冷却技术的效率，而无需更换它们。我们研究了将相变材料集成到基准电池电动汽车热管理系统中的各种可能性，并比较了由此产生的效益。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

SAE International Journal of Electrified Vehicles Engineering-Automotive Engineering

CiteScore

1.40

自引率

0.00%

发文量