杨启超,博士/教授/博导
邮箱:qichaoyang@163.com
教育经历
1998.09-2002.07,西安交通大学,流体机械专业,学士学位
2002.09 -2008.09,西安交通大学,制冷及低温工程,博士学位
工作经历
2009.04 -2011.06,清华大学,博士后
2011.07 -2018.01,合肥通用机械研究院,副研究员
2018.02至今,青岛科技大学,副教授/教授
研究方向
制冷压缩机;CO2制冷及热泵系统;冷冻冷藏用制冷技术;新型制冷空调和热泵技术;新型热功转换系统及其装备研究,等。
代表性成果
1.Dewei Lv, Deyong Ran,Qichao Yang*, Wenting Zhang, Yuanyang Zhao, Guangbin Liu, Liansheng Li. Performance analysis and city applicability evaluation of a transcritical CO2 heat pump system integrated with expander-compressor unit subcooling for space heating[J]. Energy. 320 (2025) 135293.(SCI)
2.Tailan Yin,Qichao Yang*, Jiawei Jiang, Yuanyang Zhao, Guangbing Liu, Liansheng Li. Optimization of optimal discharge pressure for a novel solar-assisted ejector subcooling CO2 transcritical refrigeration system based on NSGA-II. Applied Thermal Engineering. 265 (2025) 125574.(SCI)
3.Deyong Ran,Qichao Yang*, Tailan Yin, Liansheng Li, Yuanyang Zhao, Guangbin Liu. Performance evaluation and discharge pressure discussion of supermarket CO2refrigeration system integrated with ejector subcooling using solar energy. International Journal of Refrigeration. 172 (2025) 27-40.(SCI)
4.Jiawei Jiang,Qichao Yang*, Tailan Yin, Zeye Zheng, Yuanyang Zhao, Guangbin Liu, Liansheng Li.Comparative thermodynamic study of CO2transcritical supermarket booster refrigeration system combined with vapor injection and parallel compression[J]. International Journal of Refrigeration. 170 (2025) 70-84.(SCI)
5.Zeye Zheng,Qichao Yang*,Wenting Zhang, Yuanyang Zhao, Guangbin Liu, Liansheng Li. Thermodynamic analysis and comparison of mechanical subcooling transcritical CO2 refrigeration system with expander and throttling valve[J]. Case Studies in Thermal Engineering. 65 (2025) 105625.(SCI)
6.Zeye Zheng, Dewei Lv,Qichao Yang*, Guangbin Liu, Yuanyang Zhao, Liansheng LiEnergy and exergy analysis of a transcritical CO2 refrigeration system integrated with vapor injection and mechanical subcooling. The Journal of Supercritical Fluids. 222 (2025) 106592.(SCI)
7.Tailan Yin,Qichao Yang*, Jiawei Jiang, Zeye Zheng, Yuanyang Zhao, Guangbin Liu, Liansheng Li. Energy, exergy, and economic analysis of a novel solar-assisted ejector subcooling CO2 transcritical refrigeration system[J]. Solar Energy. 284 (2024) 113080.(SCI)
8.Muqing Chen,Qichao Yang*, Benlin, Shi, Xiaonan Chen, Weikai Chi, Guangbin Liu, Yuanyang Zhao, Liansheng Li. Performance comparison of ultra-low temperature cascade refrigeration cycles using R717/R170, R717/R41 and R717/R1150 to replace R404A/R23. Thermal Science and Engineering Progress. 44 (2023) 102048(SCI)
9.Chi Weikai,Yang Qichao*, Chen Xiaonan, Liu Guangbin, Zhao Yuanyang, Li Liansheng.Performance study of a novel ejector-cascade refrigeration system with regenerator[J]. Journal of Thermal Science. 33(2024), 1618–1629.(SCI)
10.Qichao Yang*, Xiaonan Chen, Weikai Chi, Liansheng Li, Guangbin Liu, Yuanyang Zhao. Thermodynamic analysis of an NH3/CO2 cascade refrigeration system with subcooling in the low-temperature circuit utilizing the expansion work. International Journal of Energy Research. 2023, 5987368.(SCI)
11.Xiaonan Chen,Qichao Yang*, Weikai Chi, Yuanyang Zhao, Guangbin Liu, Liansheng Li. Energy and exergy analysis of NH3/CO2 cascade refrigeration system with subcooling in the low-temperature cycle based on an auxiliary loop of NH3 refrigerants. Energy reports.8 (2022) 1757–1767.(SCI)
12.Weikai Chi,Qichao Yang*, Xiaonan Chen, Liansheng Li, Guangbin Liu, Yuanyang Zhao. Advanced exergy analysis of NH3/CO2 Cascade Refrigeration System with Ejector. International Journal of Refrigeration. 2023,145:185-195.(SCI)
13.Weikai Chi,Qichao Yang*, Xiaonan Chen, Guangbin Liu, Yuanyang Zhao, Liansheng Li. Performance evaluation of NH3/CO2 cascade refrigeration system with ejector subcooling for low-temperature circuit. International Journal of Refrigeration. 2022,136:162-171.(SCI)
14.Li Liu,Qichao Yang*, Jiawei Wu, Liansheng Li, Yongli Zhang, Xiliang Zhang. Thermodynamic analysis of NH3/CO2 cascade refrigeration system with thermosyphon refrigerant cooling screw compressor motor. International Journal of Refrigeration. 2021, 130(10):1-13. (SCI)
15.孙效航,杨启超*,史本林,陈沐清,李连生.微型滚动转子压缩机摩擦损失的分析[J].制冷学报. 2024, 45(5): 63-70+81.
16.江嘉玮,殷太岚,郑泽烨,杨启超*.中间压力对商超CO2增压制冷系统性能的影响[J].低温与超导,2024, 52(10):61-69.
17.孙效航,杨启超*,史本林,陈沐清.微型无油滚动转子压缩机的动力特性与摩擦损失分析[J].机电工程,2024, 41(8):1447-1454.
18.孙效航,杨启超*,郑泽烨.基于CFD的微型无油滚动转子压缩机泄漏分析和结构优化[J].制冷与空调(四川). 2023, 37(5):687-693.
19.车国铚,杨启超*,滕斌,魏志国,高志成.以超临界二氧化碳为介质的径向箔片轴承静特性分析[J].润滑与密封. 2022,47(3):110-120.
20.车国铚,杨启超*,张克龙,高志成.以高压CO2为介质的推力箔片轴承静特性分析[J],轴承[J],2022, (2):23-30.
21.车国铚,杨启超*,魏志国,高志成.超临界二氧化碳透平机械用气体轴承的研究进展及关键技术[J].中国电机工程学报. 2022, 42(5): 5616-5629.
22.滕斌,杨启超*,王春,李连生.以制冷剂为工作介质的止推气体轴承静态特性分析[J].润滑与密封. 2021,46(8):54-61.
23.滕斌,杨启超*,王春,赵远扬,李连生.制冷压缩机径向气浮轴承的静态特性分析[J].润滑与密封. 2021, 46(5): 34-40.
授权发明专利
1.一种动压箔片径向气体轴承冷却结构和冷却方法. ZL202110462727.1
2.用于滚动转子压缩机减少泄漏的密封机构. ZL202110986279.5
3.一种压缩机供气系统及压缩机供气控制方法. ZL202010372687.7
4.气体轴承支撑的离心压缩机供气系统. ZL201910693147.6
