Experimental Research on an 8 kW Direct Cooling Unit for Power Battery Used in a Vehicle

He Xian; Deng Dong; Su Jian; Sha Haijian; Hu Jing

doi:10.3969/j.issn.0253-4339.2019.02.020

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Experimental Research on an 8 kW Direct Cooling Unit for Power Battery Used in a Vehicle

更新时间：2024-07-18

- Experimental Research on an 8 kW Direct Cooling Unit for Power Battery Used in a Vehicle
- Journal of Refrigeration Vol. 40, Issue 2, (2019)
- 作者机构：
  
  1. 盾安汽车热管理科技有限公司
  2. 盾安环境技术有限公司
  3. 浙江盾安机电科技有限公司
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.0253-4339.2019.02.020
  CLC：
- Published：2019
- 稿件说明：
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He Xian, Deng Dong, Su Jian, et al. Experimental Research on an 8 kW Direct Cooling Unit for Power Battery Used in a Vehicle[J]. Journal of refrigeration, 2019, 40(2).
DOI：

He Xian, Deng Dong, Su Jian, et al. Experimental Research on an 8 kW Direct Cooling Unit for Power Battery Used in a Vehicle[J]. Journal of refrigeration, 2019, 40(2). DOI： 10.3969/j.issn.0253-4339.2019.02.020.

摘要

电池冷却机组性能的优异对于动力电池在整车上安全、高效、可靠运行至关重要。基于制冷剂直接冷却的方式，本文设计并研制了一套8 kW动力电池冷却机组，并在某纯电动重卡上进行了实验验证及装车验证。结果表明：当电池底部的冷板表面温度在5~10 ℃时，电池芯体的最高温度能够降到35 ℃以下；采用双压缩机联合制冷方式，机组制冷性能达7.8 kW；采用分液头加毛细管的分液方式能够保证15块电池冷板进出口温差维持在5 ℃以内；通过循环充放电实验，在0.8C倍率充电、1C倍率放电的条件下，电芯温度皆可在40 ℃以下；在外界高温环境下，该机组能够在20 min内将电池芯体的平均温度降至28 ℃左右；此外，分析了制冷剂充注量、H型热力膨胀阀开度等因素对机组性能的影响，制定了机组的控制策略并加以评估。

Abstract

The performance of the battery cooling unit is critical to the safe

efficient

and reliable operation of the power battery in a vehicle. Based on the process of refrigerant direct cooling

an 8-kW power battery cooling unit for use in a pure electric truck was designed and developed. The performance of this unit was tested in both a lab and the truck itself. The results showed that if the temperature of the cooling plate located at the bottom of the battery was between 5 and 10 ℃

the highest temperature in the battery core could be reduced to 35 ℃. In addition

the refrigeration capacity could reach 7.8 kW with dual compressor cooling system. The temperature difference between the inlets and outlets of 15 cooling plates was less than 5 ℃ when the distributor and capillary were combined. In a high-temperature environment

the vehicle battery cooling unit used in the truck could maintain an average battery-core temperature of less than 28 ℃. Different inlet temperatures of cooling plates could be controlled within a range of 7–10 ℃

whereas the outlet temperature could be controlled within 9–13 ℃

which is very effective for the cooling of battery. In addition

the influence of refrigerant charge and the opening degree of the H-type thermal expansion valve on the performance of the unit were analyzed

and the control strategy of the unit was formulated and evaluated.

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Related Institution

Institute of Refrigeration and Cryogenics, Shanghai Jiao Tong University

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合肥综合性国家科学中心能源研究院

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