Charging Requirements and Unstable Characteristics of Automotive CO<sub>2</sub> Thermal Management Systems

Wang Congfei; Jia Fan; Yin Xiang; Cao Feng

doi:10.3969/j.issn.0253-4339.2024.04.059

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Charging Requirements and Unstable Characteristics of Automotive CO₂ Thermal Management Systems

Refrigerant Substitution Technology | 更新时间：2024-09-02

- Charging Requirements and Unstable Characteristics of Automotive CO₂ Thermal Management Systems
- Journal of Refrigeration Vol. 45, Issue 4, Pages: 59-67(2024)
- 作者机构：
  
  1..中国制冷学会　北京　 100142
  2..西安交通大学能源与动力工程学院　西安　 710049
  3..西安交通大学国家储能技术产教融合创新平台（中心）西安　 710049
- 作者简介：
  
  Cao Feng, male, professor, School of Energy and Power Engineering, Xi′an Jiaotong University, 86-29-82663583，E-mail: fcao@mail.xjtu.edu.cn. Research fields: key technology of transcritical CO2 air conditioning heat pump, intelligent thermal management technology for transportation equipment, special compressor and refrigeration technology.
- 基金信息：
  
  the National Natural Science Foundation of China(52006162)
- DOI：10.3969/j.issn.0253-4339.2024.04.059
  CLC： TB61⁺2;U469.72
- Received：26 January 2024，
  
  Revised：20 March 2024，
  
  Accepted：21 March 2024，
  
  Published：16 August 2024
- 稿件说明：
移动端阅览
Wang Congfei, Jia Fan, Yin Xiang, et al. Charging Requirements and Unstable Characteristics of Automotive CO₂ Thermal Management Systems[J]. Journal of refrigeration, 2024, 45(4): 59-67.
DOI：

Wang Congfei, Jia Fan, Yin Xiang, et al. Charging Requirements and Unstable Characteristics of Automotive CO₂ Thermal Management Systems[J]. Journal of refrigeration, 2024, 45(4): 59-67. DOI： 10.3969/j.issn.0253-4339.2024.04.059.

摘要

跨临界CO

热系统是解决电动车“低温续航衰减”和“热系统工质温室效应强”主要问题的最佳技术之一，而电动车多变场景耦合跨临界循环复杂性，系统性能及运行稳定性强依赖于充注量。通过仿真研究了跨临界CO

热系统在不同工况下的CO

充注量定量需求变化规律。重点研究了环境温度、室内风量和室外风速这3个关键因素对不同模式下的系统制冷剂需求量的影响机理和定量表征；并探讨了在非适充场景下的系统动态特性。结果表明：热泵模式下，制冷剂需求下限随环境温度的升高、室内风量的降低和室外风速的增加而增大，其定量影响幅度为18.6%、6.16%和18.9%。制冷模式下，制冷剂需求下限则随环境温度的降低、室内风量的降低和室外风速的增加而增大，其定量影响幅度为7.03%、7.85%和2.27%。在非适充工况下，因非适充下的系统控制量与目标量作用关系发生潜在变化，导致系统出现失控，需要通过制冷剂分布调控缓解特殊工况的系统不稳定性。研究结果对于优化电动汽车空调系统储液器设计、提高其能效和舒适性具有重要参考价值。

Abstract

Transcritical CO

thermal systems have emerged as leading solutions to addressing

challenges such as "range anxiety in winter" and pronounced greenhouse effects associated with the working fluid in electric vehicle thermal systems. Nevertheless

the intricate interplay of transcritical cycles in the varied scenarios of electric vehicles introduces complexity

with performance and operational stability intricately linked to the refrigerant charge. This study conducts simulations to investigate the variability in refrigerant charging requirements for transcritical CO

thermal management systems under diverse operating conditions. We specifically examined the impact of three critical factors

namely ambient temperature

indoor airflow rate

and outdoor air velocity

on refrigerant requirements in different modes and their underlying mechanisms. In the heat pump mode

the demand for refrigerant charge increases with ambient temperatures and wind speed and decreases with cabinet air flow rate

with changes of 18.6%

18.9%

and 6.16%

respectively. In the cooling mode

the refrigerant charge requirement decreases with ambient temperatures and cabinet air flow rate and increases with outdoor wind speeds

with changes of 7.03%

7.85%

and 2.27%

respectively. In situations of nonoptimal charging

potential alterations in the interaction between system control variables and target variables contribute to system instability. This necessitates adjustments to refrigerant distribution to mitigate instability under specific operating conditions. The research outcomes hold substantial reference value for the optimization of electric vehicle air-conditioning accumulator designs

enhancement of energy efficiency

and improvement of overall thermal comfort.

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Charging Requirements and Unstable Characteristics of Automotive CO2 Thermal Management Systems

DOI：10.3969/j.issn.0253-4339.2024.04.059

摘要

Abstract

关键词

Keywords

references

Charging Requirements and Unstable Characteristics of Automotive CO₂ Thermal Management Systems