Name: ZOU Huiming

Email: zouhuiming@mail.ipc.ac.cn

Resume:

Dr. Zou Huiming is a professor and doctoral supervisor at the Technical Institute of Physics and Chemistry, Chinese Academy of Sciences (CAS), where she also serves as the Director of the Research Center of Thermal Process and Energy Conservation Technologies. She earned her Ph.D. from the same institute in 2010. With long term experience in Refrigeration and HVAC Engineering, she has finished more than 30 scientific research projects, including those funded by the National Natural Science Foundation of China, the National Key Research and Development Program, the Strategic Emerging Projects of the Chinese Academy of Sciences, and enterprise cooperation projects. Over 110 papers have been published, among which more than 60 are SCI papers. 26 invention patents have been authorized, 4 monographs have been published, and 6 industry standards have been formulated. She is also serving as: General secretary of Electric vehicle thermal management systems working group of The International Institute of Refrigeration；General Secretary of Automotive Thermal System Committee of China Society of Automotive Engineers, Member of Small Refrigeration Equipment and Technical Commission of China Association of Refrigeration, Editorial board member of Academic Journal e-prime Advances in EEEE.

Research Fields:

1. Wide-temperature range heat pumps, compressor, and thermal management for new energy vehicles.

2. Artificial environment and thermal control technologies for aerospace vehicles.

3. Linear compressors and control theories.

4. Cold chain technologies and equipment.

5. Environmentally friendly refrigerant substitution.

Awards and Honors:

1.First Prize of Henan Province Science and Technology Progress Award (2017)

2. Science and Technology Award of China Refrigeration Society - Youth Award (2017)

3. Outstanding Young Scientist of China Refrigeration Society (2017)

4. First Prize for Science and Technology Progress in China's Automotive Industry (2021)

5. Second Prize of Henan Province Science and Technology Progress Award (2022)

6. Third Prize of Hubei Province Science and Technology Progress Award (2024)

Selected Publications:

1. Zhang S, Zou HM^#, Tang MS, et al, Study on the friction characteristics of a self-lubricating linear compressor using vapor injection, International Journal of Refrigeration, 2024. SCI.

2. Tang MS, Hu ZH, Chen LB, Zou HM*, et al, Investigation of the performance of oil-free linear compressor with magnetic resonance spring for pulse tube cryocooler. Cryogenics，2024. SCI.

3. Yang TY, Yang YC, Zou HM*, et al, Comprehensive performance evaluation on a transcritical CO2 ejector-expansion heat pump system, Applied Thermal Engineering, 2024. SCI.

4. Yang TY, Yang YC, Zou HM*, et al, Performance investigation of CO2 automotive air-conditioning system with ejector at 45℃ ambient temperature, International Journal of Refrigeration, 2024. SCI.

5. Li X, Zou HM*, Tang MS, et al, Performance analysis of a vapor injection linear compressor in a dual-temperature zone refrigerator, International Journal of Refrigeration, 2024. SCI.

6. Kong FC, Tang MS*, Zou HM*, et al, Performance simulation analysis of a novel dual-piston two-stage carbon dioxide linear compressor, International Journal of Refrigeration, 2024. SCI.

7. Li CZ, Sun J, Zou HM, et al, Experimental assessment on operation efficiency and output characteristics of an oil-free linear compressor in a refrigeration system under various parameters, Applied Thermal Engineering, 2024. SCI.

8. Tang ZH, Zhang S, Zou HM*, et al, Operational stability influenced by lubricant oil charge in the CO2 automotive air conditioning system, International Journal of Refrigeration, 2024. SCI.

9. Li G, Ma JW, Zou HM, et al, Experimental investigation of refrigerant charge determination for heating performance in a CO2 heat pump system for electric vehicles, Applied Thermal Engineering, 2024. SCI.

10. Yang YC, Zou HM*, Gu X, et al, Thermal-hydraulic performance of super-amphiphobic louver-fin flat-tube heat exchanger under fouled condition, Applied Thermal Engineering, 2024. SCI.

11. Zou HM, Wang YL, Tang MS, et al, Experimental and theoretical study on work conversion and heat transfer of R290 linear compressor, International Journal of Refrigeration, 2023. SCI.

12. Yang TY, Zou HM^*, Tang MS, et al, Comprehensive study on EEVs regulation characteristics of vapor-injection CO2 heat pump for electric vehicles, International Journal of Refrigeration, Volume 149, 2023, Pages 11-22, SCI.

13. Tang ZH, Li X, Zou HM^*, et al, Experimental performance of a heat pump driven by vapor injection linear compressor, Applied Thermal Engineering, Volume 225, 2023, 120197, SCI.

14. Zou HM, Huang GY, Tang MS, et al, Experimental investigation on condensation performance of the processed windshield surface of electric vehicles, Case Studies in Thermal Engineering, Volume 41, 2023, 102624, SCI.

15. Zou HM , Yang TY, Tang MS , et al. Ejector optimization and performance analysis of electric vehicle CO2 heat pump with dual ejectors[J]. Energy, 2022, 239. SCI.

16. Yang TY, Zou HM^*, Tang MS, et al, Experimental performance of a vapor-injection CO2 heat pump system for electric vehicles in −30 °C to 50 °C range, Applied Thermal Engineering, Volume 217, 2022, 119149, SCI.

17. Li X, Zou HM*, Tang MS, et al. Optimization analysis of linear compressor using R290 for capacity-modulation performance improvement. Journal of Refrigeration. 2021(127):111-119. SCI.

18. Chen YY , Zou HM*, Dong JQ, et al. Experimental investigation on the heating performance of a CO2 heat pump system with intermediate cooling for electric vehicles[J]. Applied Thermal Engineering, 2021, 182(1):116039. SCI.

19. Zou HM, Li X, Tang MS, et al. Performance analysis of linear compressor using R290 for commercial refrigerator. Journal of Refrigeration. 2020(109):55-63. SCI.

20. Han XX, Zou HM*, Wu J, et al.Investigation on the heating performance of the heat pump with waste heat recovery for the electric bus. Renewable energy. 2020, 152: 835 - 848. SCI.

21. Chen YY, Zou HM*, Dong JQ, et al. Experimental investigation on refrigeration performance of a CO2 system with intermediate cooling for automobiles. Applied thermal engineering. 2020,175(25). SCI.

22. Zou HM, Li X, Tang MS, et al. Start-up characteristics of linear compressors in a refrigeration system. Journal of Thermal Science. 2020. SCI.

23. Qin F, Liu HZ*, Zou HM*, et al. Experiment investigation and control strategies on two-phase refrigerant injection heat pump system for electric vehicle in start-up stage. Journal of Thermal Science. 2020. SCI.

24. Han XX, Zou HM*, Tian CQ, et al. Numerical study on the heating performance of a novel integrated thermal management system for the electric bus. Energy, 2019(186). SCI.

25. Han XX, Zou HM*, Kang W et al. Experimental investigation on vapor injection ASHP for electric rail vehicles in cold region. Applied Thermal Engineering. 2019(153): 473-482. SCI.

26. Tang MS, Zou HM*, Tian CQ, et al. The analysis of energy conservation employed in the control of linear compressor. IEEE 2019. EI.

27. Zou HM, Wang M, Tang MS et al. Study on stroke unstable fluctuation of linear compressor and start-up control optimization with frequency tracking. International Journal of Refrigeration. 2018 (96): 100-105. SCI.

28. Zou HM, Han XX, Huang GY, et al. Analysis of optimal injection ratio of vapor injection heat pump for electric railway vehicles. Journal of Sustainable Development of Energy, Water and Environment Systems.2019,7(4):656-666. SCIE.

29. Han XX. Zou HM*, Xu H, et al. Experimental study on vapor injection air source heat pump with internal heat exchanger for electric bus. Energy Procedia, 2019 (158): 4147-4153. EI.

30. Zou HM, Li C, Tang MS, et al. Online measuring method and dynamic characteristics of gas kinetic parameters of linear compressor, Measurement. 2018，125：545-553. SCI.

31. Liu JX, Zou HM*, Zhang GY, et al. Experimental Study and Numerical Simulation concerning Fogging Characteristics and Improvement of Return Air Utilization for Electric Vehicles. Applied Thermal Engineering, 2018(129):1115-1123. SCI.