个人简介
一、 个人概况
王雷,山东大学控制科学与工程学院,教授,博士生导师
山东大学氢能研究中心 主任
山东大学智能感知与电子新技术研究所 所长
科技部重点研发计划“氢能专项”“氢进万家”指南起草专家
二、主要研究领域
氢能、燃料电池、氢泄漏传感器、引射器等
三、联系方式
电子邮箱:leiwang@sdu.edu.cn
联系电话:13075351398
邮 编:250061
通讯地址:山东大学千佛山校区控制科学与工程学院创新大厦602室
四、发表期刊文章(标*号的为通讯作者)
1. Yajie Song, Chen Wang, Lei Wang*, Xinli Wang, Lei Jia. Design criterion of critical mode ejector for PEMFC hydrogen supply and recycle system. Applied Energy. 2025; 377.
2. Kai Wang, Rui Gao*, Lei Wang*. A binary-fluid gaseous ejector model under overall modes for anode gas recirculation in solid oxide fuel cell (SOFC) systems. International Communications in Heat and Mass Transfer, 2024, 158.
3. Yajie Song, Lei Wang*, Lei Jia, Xinli Wang. Optimization and performance investigation of confocal twin-nozzle ejector for PEMFC hydrogen supply and recirculation system under actual variable operating conditions. International Journal of Hydrogen Energy. 2024; 50: 1450-64.
4. Haowei Guo, Lei Wang*, Xinli Wang. A full operating conditions ejector model for refrigeration systems driven by low-grade heat sources. Case Studies in Thermal Engineering. 2024; 60.
5. Meihong Yu, Chen Wang, Lei Wang*, Xinli Wang, Dongdong Li. Auxiliary-ejector-based hydrogen recirculation system to broaden PEMFC operating range. International Journal of Hydrogen Energy. 2024; 57: 515-29.
6. Meihong Yu, Chen Wang, Lei Wang*, Xinli Wang. Flow characteristics of coaxial-nozzle ejector for PEMFC hydrogen recirculation system. Applied Thermal Engineering. 2024; 236.
7. Kai Wang, Lei Wang*, Rui Gao. An extended mechanism model of gaseous ejectors. Energy. 2023; 264.
8. Zhuochen Ping, Bin Chen, Chen Wang, Zengshi Xu*, Lei Wang*. High performance ejector enhanced by heat exchanger in solid oxide fuel cell anode recirculation system. Applied Thermal Engineering. 2023; 221.
9. Haowei Guo, Chen Wang, Lei Wang*. Optimization of the primary nozzle for design a high entrainment ejector in spacesuit portable life support system. Applied Thermal Engineering. 2022; 217.
10. Qiang Liu, Zengshi Xu*, Ao Wang, Zhuochen Ping, Lei Wang*. Weight analysis on geometric parameters of ejector under high back pressure condition of SOFC recirculation system. International Journal of Hydrogen Energy. 2022; 47: 27150-65.
11. Yajie Song, Xinli Wang*, Lei Wang, Fengwen Pan, Wenmiao Chen, Fuqiang Xi. A twin-nozzle ejector for hydrogen recirculation in wide power operation of polymer electrolyte membrane fuel cell system. Applied Energy. 2021; 300.
12. Xinli Wang, Lei Wang*, Yajie Song, Jie Deng, Youjie Zhan. Optimal design of two-stage ejector for subzero refrigeration system on fishing vessel. Applied Thermal Engineering. 2021; 187.
13. Zhiqiang Du, Qiang Liu, Xinli Wang, Lei Wang*. Performance investigation on a coaxial-nozzle ejector for PEMFC hydrogen recirculation system. International Journal of Hydrogen Energy. 2021; 46: 38026-39.
14. Haoyuan Xue, Lei Wang*, Lei Jia, Chungang Xie, Qingchun Lv. Design and investigation of a two-stage vacuum ejector for MED-TVC system. Applied Thermal Engineering. 2020;167.
15. Haoyuan Xue, Lei Wang*, Hailun Zhang, Lei Jia, Jianbo Ren. Design and investigation of multi-nozzle ejector for PEMFC hydrogen recirculation. International Journal of Hydrogen Energy. 2020; 45: 14500-16.
16. Jiapeng Liu, Lei Wang*, Lei Jia*, Haoyuan Xue. Thermodynamic analysis of the steam ejector for desalination applications. Applied Thermal Engineering, 2019, 159.
17. Wending Gu, Xinli Wang*, Lei Wang*, Xiaohong Yin, Hongbo Liu. Performance investigation of an auto-tuning area ratio ejector for MED-TVC desalination system. Applied Thermal Engineering, 2019, 155:470-479.
18. Xinli Wang, Lei Wang∗, Xiaohong Yin, Yuliang Jiang, Hongbo Liu, Lei Jia. Modeling and performance analyses of a batch-wise liquid desiccant air conditioning system. Building and Environment,2019,154:1-12.
19. Kai Wang, Lei Wang*, Lei Jia*, Wenjian Cai, Rui Gao. Optimization design of steam ejector primary nozzle for MED-TVC desalination system. Desalination. 2019, 471.
20. Hailun Zhang, Lei Wang*, Lei Jia*, Hongxia Zhao, Chen Wang. Influence investigation of friction on supersonic ejector performance. International Journal of Refrigeration, 2018, 85: 229-239.
21. Jiapeng Liu, Lei Wang*, Lei Jia* ,Xinli Wang. Thermodynamic model for all modes performance analysis of supersonic ejector considering non-uniform distribution of flow field. International Journal of Refrigeration, 2018, 96: 17-24.
22. Jiapeng Liu, Lei Wang*, Lei Jia*,Xinli Wang. Thermodynamic modeling and sensitivity analysis of ejector in refrigeration system. International Journal of Heat and Mass Transfer, 2018, 126:485-492.
23. Lei Wang*, Jiapeng Liu,Tao Zou, Fengze Jia, Jinwei Du. An adaptive ejector. PartI: Auto-tuning area ratio ejector for refrigeration system. Energy, 2018, 161:536-543.
24. Yifei Wu, Hongxia Zhao*, Cunquan Zhang, Lei Wang, Jitian Han.Optimization analysis of structure parameters of steam ejector based on CFD and orthogonal test. Energy, 2018, 151:79-93.
25. Jiapeng Liu, Lei Wang*, Lei Jia*. A predictive model for the performance of the ejector in refrigeration system. Energy Conversion and Management, 2017, 150: 269-276.
26. Chen Wang, Lei Wang*, Tao Zou, Hailun Zhang. Influences of area ratio and surface roughness on homogeneous condensation in ejector primary nozzle. Energy Conversion and Management. 2017, 149: 168-174.
27. Lei Wang; Chen Wang; Wenxiu Hou; Hongxia Zhao; Hailun Zhang; Experimental investigation on ejector performance near critical back pressure. International Journal of Refrigeration. 2017, 80: 158-168.
28. Hanrui Zhang, Lei Wang*, Jia Yan, Xianbi Li, Ling Wang. Performance investigation of a novel EEV-based ejector for refrigerator-freezers Applied Thermal Engineering, 2017, 121: 336-343.
29. Wenxiu Hou, Lei Wang*, Jia Yan, Xianbi Li, Ling Wang. CFD Simulation on the Performance of Ejector in a Parallel Hybrid Ejector-based Refrigerator-freezer Cooling Cycle. Energy Conversion and Management. 2017, 143: 440-447.
30. Jiapeng Liu, Lei Wang*, Lei Jia*, Xinli Wang. The influence of the area ratio on ejector efficiencies in the MED-TVC desalination system. Desalination. 2017, 413: 166-175.
31. Lei Wang, Jia Yan. Numerical study on optimization of ejector primary nozzle geometries. International journal of refrigeration. 2017, 76: 219-229.
32. Jiapeng Liu, Lei Wang*, Lei Jia. A control oriental model for combined compression-ejector refrigeration system. Energy Conversion and Management. 2017, 135: 538-546.
33. Chen Wang, Lei Wang*, Xinli Wang, Hongxia Zhao. Design and numerical investigation of an adaptive nozzle exit position ejector in multi-effect distillation desalination system. Energy, 2017, 140: 673-681.
34. Huijun Ma, Hongxia Zhao, Lei Wang, Zeting Yu, Xiaoan Mao. Modeling and investigation of a steam-water injector. Energy Conversion and Management. 2017, 151: 170-178.
35. Xiaofei Li, Lei Wang*, Lei Jia. Numerical and Experimental Study of a Novel Compact Micro Fluidized Beds Reactor for CO2 Capture in HVAC. Energy and Buildings, 2016, 135: 128-136.
36. Jianping Wei, Lei Wang*, Lei Jia, Ke Zhu, Nairen Diao. A New Analytical Model for Short-time Response of Vertical Ground Heat Exchangers Using Equivalent Diameter Method. Energy and Buildings, 2016, 119: 13-19.
37. Chen Wang, Lei Wang*, Hongxia Zhao, Zhongyong Du, Zhaoqiu Ding. Effects of Superheated Steam on Non-equilibrium Condensation in Ejector Primary Nozzle. International journal of refrigeration, 2016, 67: 214-226.
38. Zhaoqiu Ding, Lei Wang*, Hongxia Zhao, Hailun Zhang, Chen Wang. Numerical Study and Design of a Two-stage Ejector for Subzero Refrigeration. Applied Thermal Engineering, 2016, 108: 436-448.
39. Hongxia Zhao, Ke Zhang, Lei Wang*.Thermodynamic investigation of a booster-assisted ejector refrigeration system. Applied Thermal Engineering, 2016, 104: 274-281.
40. Lei Wang, Wenjian Cai, Hongxia Zhao, Chen Lin, Jia Yan. Experimentation and cycle performance prediction of hybrid A/C system using automobile exhaust waste heat. Applied Thermal Engineering, 2016, 94: 314-323.
41. Jianping Wei, Lei Wang*, Lei Jia, Wenjian Cai. A New Method for Calculation of Short Time-step g-function of Vertical Ground Heat Exchangers. Applied Thermal Engineering, 2016, 99: 776-783.
