A novel energy-economic-environmental evaluation model for heat pump air conditioners integrated with waste heat recovery in electric vehicles

Yu Xiaoli; Jiang Ruicheng; Lu GuodongLiu HaoTong YuxiangQian GaoHuang RuiLi Zhi

首页> 外文期刊>case studies in thermal engineering >A novel energy-economic-environmental evaluation model for heat pump air conditioners integrated with waste heat recovery in electric vehicles

【24h】

A novel energy-economic-environmental evaluation model for heat pump air conditioners integrated with waste heat recovery in electric vehicles

机译：

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

Heat pump air conditioners (HPAC) have been widely investigated in electric vehicles (EVs) due to their high efficiency and energy-saving advantages, but the energy performance of HPAC deteriorates significantly under low-temperature weather conditions. In recent years, heat pump air conditioners combining waste heat recovery (HPAC-WHR) systems have been proposed to improve the energy efficiency of HPAC and mileages of EVs, by utilizing the waste heat of batteries, motors and motor controllers. However, effects of the WHR subsystem on the energy, economic and environmental performance have not been considered before, and there is a lack of unified evaluation criteria for different HPAC-WHR systems. Therefore, a novel evaluation model is proposed for HPAC-WHR systems in this study, and the energy, economic and environmental performance of typical HPAC-WHR systems are comprehensively evaluated and compared, providing theoretical guidelines for future design and optimization of more efficient HPAC-WHR systems in EVs. Results based on the proposed evaluation model indicate that the condenser-side HPAC-WHR system possesses the best comprehensive performance when the ambient temperature is low and the quantity of waste heat is small, while the refrigerant-side HPAC-WHR system achieves the best comprehensive performance under high ambient temperature and large quantity of waste heat. By combining the advantages of the condenser-side and refrigerant-side systems, a novel HPAC-WHR system is designed and its performance is compared with the refrigerant-side system. The comparison results demonstrate that the novel system outperforms 18.9 higher in COPcom and 14.7 lower in life-cycle carbon emissions, with only 2.1 increase in comprehensive cost.

著录项

来源
《case studies in thermal engineering》 |2023年第si期|共19页
作者
Yu Xiaoli; Jiang Ruicheng; Lu GuodongLiu HaoTong YuxiangQian GaoHuang RuiLi Zhi;
展开▼
作者单位

Zhejiang Univ;

Key Lab Smart Thermal Management Sci & Technol Veh;

Inst Serv Oriented Mfg Co Ltd;

展开▼
收录信息
原文格式 PDF
正文语种英语
中图分类
关键词
Heat pump air conditioner; Waste heat recovery; Electric vehicles; Performance evaluation; Carbon emissions; PERFORMANCE-CHARACTERISTICS; SYSTEM; SIMULATION;

相似文献

外文文献
中文文献
专利

1. Heating performance of a coolant-source heat pump using waste heat from stack and electric devices in fuel cell electric vehicles under cold conditions [J] . Lee Hoseong, Lee Dongchan, Kim Yongchan Energy conversion & management . 2022,第1期

机译：Heating performance of a coolant-source heat pump using waste heat from stack and electric devices in fuel cell electric vehicles under cold conditions
2. Investigation on the performance enhancement of electric vehicle heat pump system with air-to-air regenerative heat exchanger in cold condition [J] . Sangwook Lee, Yoong Chung, Yeonwoo JeongSoo Kim Min Sustainable energy technologies and assessments . 2022,第3期

机译：Investigation on the performance enhancement of electric vehicle heat pump system with air-to-air regenerative heat exchanger in cold condition
3. Design and Research on the Thermal Management Integrated Control System of Battery Electric Vehicle Based on Heat Pump Air Conditioner [J] . Xiaohua Zeng, Yufeng Huang, Dafeng SongFuwang Gao SAE International Journal of Passenger Vehicle Systems . 2022,第2期

机译：Design and Research on the Thermal Management Integrated Control System of Battery Electric Vehicle Based on Heat Pump Air Conditioner
4. New Refrigerant for Battery Electric Vehicles Using Heat Pump [C] . Tsubasa NAKAUE, Tatsumi TSUCHIYA, Kenji GOBO, International Institute of Refrigeration;Institut International Du Froid;IIR International Conference on HFO Refrigerants and Blends . -1

机译：New Refrigerant for Battery Electric Vehicles Using Heat Pump
5. Safety Evaluation of Driver Behavior Adaptations in Connected Vehicle Environment Using Microsimulation Modeling =微觀仿真建模在互聯車輛環境中駕駛員行為適應的安全性評估. [D] . Adomah, Eric. 2020

机译：Safety Evaluation of Driver Behavior Adaptations in Connected Vehicle Environment Using Microsimulation Modeling =微观仿真建模在互联车辆环境中驾驶员行为适应的安全性评估.
6. Thermoelectric Generators on Satellites—An Approach for Waste Heat Recovery in Space [O] . Marian von Lukowicz, Elisabeth Abbe, Tino Schmiel, 2016

机译：Thermoelectric Generators on satellites—an approach for Waste Heat Recovery in space
7. HYDRIDE HEAT PUMP VolumeⅠ: Users Manual for HYCSOS System Design Program [R] . 1978

机译：HYDRIDE HEaT pUmp第一卷：HYCsOs系统设计程序用户手册

A novel energy-economic-environmental evaluation model for heat pump air conditioners integrated with waste heat recovery in electric vehicles

摘要

著录项

相似文献

相关主题

期刊订阅