教育背景
1999.9-2003.7 西安交通大学能源与动力工程学院 热能与动力工程专业 学士
2003.9-2006.6 西安交通大学能源与动力工程学院 制冷及低温工程专业 硕士
2006.9-2009.12 西安交通大学能源与动力工程学院 制冷及低温工程专业 博士
2007.7-2009.7 新加坡南洋理工大学 国家公派联合培养博士生
工作履历
2009.11-2011.10 清华大学热能工程系 博士后 助理研究员
2011.11-2013.12 清华大学热能工程系 助理研究员
2013.12-至今 清华大学能源与动力工程系 副教授
学术兼职
中国工程热物理学会热力学与能源利用分会青年委员会委员
中国制冷空调专业产学研论坛组织委员会委员、秘书长(第四届)
中国航天第三专业信息网热管理专委会委员
研究领域
主要研究领域为低品位热能和余热利用与转化、空天动力热防护技术,研究内容有:包括跨临界CO2制冷、余热利用制冷、燃料电池水热氢管理、超临界CO2布雷顿发电系统、超声速气膜冷却技术、超临界碳氢燃料再生冷却等。
研究概况
作为负责人正在进行的主要科研项目:
1. 国家自然科学基金委优秀青年基金(2020-2022):低品位热能和余热的综合利用与转化
2. 潍柴动力股份有限公司(2020-2022):高温燃料循环引射器的开发及应用
3. 国家科技重大专项(2019-2022):跨音速叶栅通道内激波和涡轮叶片冷却结构交互影响研究
4. 国家科技重大专项(2018-2022):加速度对微小尺度亚/超临界煤油流动换热特性的影响规律研究
5. JW科技委基础加强项目(2020-2024):新型冷却与发电一体化系统优化
6. 国家科技重大专项(2021-2024):收扩喷管内气膜冷却特性及其与跨音速主流的干涉机理研究
作为负责人已完成的主要科研项目:
1. 国家自然科学基金委面上基金(2016-2019):喷射器内激波调控与超音速两相流热质传递机理研究
2. 国家科技重大专项(2015-2020):超临界碳氢燃料热裂解机理
奖励与荣誉
1. 航天飞行器极端条件下主动热防护关键技术及应用、国家技术发明二等奖(排名第4)(2020)
2. 清华大学优秀硕士学位论文指导教师(2020)
3. 系先进工作者(2019)
4. 高超声速飞行器高温结构主动冷却热防护与热测量、教育部技术发明一等奖(排名第4)(2017)
5. 清华大学大学生研究训练优秀指导教师一等奖(2017)
6. 清华大学优秀班主任二等奖(2015)
7. 西安交通大学校级优秀博士学位论文奖(2010)
8. 中国青少年科技创新奖(2009)
学术成果
发表学术论文80余篇,其中SCI检索论文56篇,EI检索论文31篇。主要代表性论文:
[1] Yiping Yang, Yulei Huang, Peixue Jiang, Yinhai Zhu. Multi-objective optimization of combined cooling, heating, and power systems with supercritical CO2 recompression Brayton cycle. Applied Energy 271 (2020) 115189
[2] Pei-Xue Jiang, Yusen Wang, Yinhai Zhu. Differential Global Reaction Model with Variable Stoichiometric Coefficients for Thermal Cracking of n-Decane at Supercritical Pressures. Energy Fuels 2019, 33, 7244−7256
[3] Yinhai Zhu, Yulei Huang, Shuying Lin, Conghui Li, Peixue Jiang. Study of convection heat transfer of CO2 at supercritical pressures during cooling in fluted tube-in-tube heat exchangers. International Journal of Refrigeration 104 (2019) 161–170
[4] Peixue Jiang, Zelong Lu, Yuxuan Guo, Yinhai Zhu*. Experimental investigation of convective heat transfer of hydrocarbon fuels at supercritical pressures within rotating centrifugal channel. Applied Thermal Engineering 2019(147): 101–112.
[5] Yinhai Zhu, Yulei Huang, Conghui Li, Fuzhen Zhang, Pei-Xue Jiang. Experimental investigation on the performance of transcritical CO2 ejector–expansion heat pump water heater system. Energy Conversion and Management 2018(167): 147–155.
[6] Yinhai Zhu*, Peixue Jiang. Theoretical model of transcritical CO2 ejector with non-equilibrium phase change correlation. International Journal of Refrigeration 2018(86): 218–227.
[7] Yinhai Zhu, Conghui Li, Fuzhen Zhang, Pei-Xue Jiang. Comprehensive experimental study on a transcritical CO2 ejector-expansion refrigeration system. Energy Conversion and Management 2017(151): 98–106.
[8] Yinhai Zhu, Zhecheng Wang, Yiping Yang, Pei-Xue Jiang. Flow visualization of supersonic two-phase transcritical flow of CO2 in an ejector of a refrigeration system. International Journal of Refrigeration 2017(74):352–359.
[9] Yinhai Zhu, Peixue Jiang. Experimental and analytical studies on the shock wave length in convergent and convergent–divergent nozzle ejectors. Energy Conversion and Management 88 (2014) 907–914.
[10] Yinhai Zhu, Peixue Jiang. Bypass ejector with an annular cavity in the nozzle wall to increase the entrainment: Experimental and numerical validation. Energy, Volume 68, 15 April 2014, Pages 174-181.
[11] Yinhai Zhu, Peixue Jiang. Experimental and numerical investigation of the effect of shock wave characteristics on the ejector performance. International Journal of Refrigeration, Volume 40, April 2014, Pages 31-42.
[12] Zhu, Yinhai; Jiang, Peixue; Sun, Jiguo; Xiong, Yanbin. Injector head transpiration cooling coupled with combustion in H2/o2 subscale thrust chamber. Journal of Thermophysics and Heat Transfer, v 27, n 1, p 42-51, January-March 2013.
[13] Zhu Yinhai, Jiang Peixue, Hybrid vapor compression refrigeration system with an integrated ejector cooling cycle,International Journal of Refrigeration,Volume 35, Issue 1, Pages 68-78, JAN 2012.
[14] Yinhai Zhu, Yanzhong Li, Wenjian Cai. Control oriented modeling of ejector in anode gas recirculation solid oxygen fuel cell systems. Energy Conversion and Management. Volume 52, Issue 4, 2011, Pages 1881-1889.
[15] Yinhai Zhu, Wenjian Cai, Changyun Wen, Yanzhong Li. Shock circle model for ejector performance evaluation. Energy Conversion and Management, Volume 48, Issue 9, September 2007, Pages 2533-2541.
[16] Yinhai Zhu, Wenjian Cai, Changyun Wen, Yanzhong Li. Simplified ejector model for control and optimization. Energy Conversion and Management, Volume 49, Issue 6, June 2008, Pages 1424-1432.
[17] Yinhai Zhu, Wenjian Cai, Changyun Wen, Yanzhong Li. Fuel ejector design and simulation model for anodic recirculation SOFC system. Journal of Power Sources, Volume 173, Issue 1, 8 November 2007, Pages 437-449.
[18] Yinhai Zhu, Wenjian Cai, Yanzhong Li, Changyun Wen. Anode gas recirculation behavior of a fuel ejector in hybrid SOFC systems: Performance evaluation in three operational modes. Journal of Power Sources, Volume 185, Issue 2, 1 December 2008, Pages 1122-1130.
[19] Yinhai Zhu, Wenjian Cai, Changyun Wen, Yanzhong Li. Numerical investigation of geometry parameters for design of high performance ejectors. Applied Thermal Engineering, Volume 29, Issues 5-6, April 2009, Pages 898-905.
[20] Yinhai Zhu, Yanzhong Li. New theoretical model for convergent nozzle ejector in the proton exchange membrane fuel cell system. Journal of Power Sources, Volume 191, Issue 2, 15 June 2009, Pages 510-519.