个人简介
教育背景
2001-2005上海交通大学/制冷与低温工程博士
工作经历
2017.9-至今,上海交通大学/机械与动力工程学院/副院长
2013.1-至今,上海交通大学/机械动力工程学院/制冷与低温工程研究所,教授,博士生导师
2011-2012.12,上海交通大学/机械动力工程学院/制冷与低温工程研究所,副教授,博士生导师
2010.12-2011.12,Newcastle University, UK, EU Marie Curie International Incoming Fellow (欧盟居里夫人奖学金引进研究员)
2010.2-2010.12,University of Warwick, UK, Research fellow for Royal Society International Incoming Fellowship (英国皇家学会奖学金引进研究员)
2008.11-2009.2,University of Warwick, UK, Visiting Academic (访问学者)
2007-2010,上海交通大学/机械动力工程学院/制冷与低温工程研究所,副教授
2005-2007,上海交通大学/机械动力工程学院/制冷与低温工程研究所,讲师
1999-2001,江苏大学/学报编辑部自然版,编辑
1998-1999,青岛海尔空调有限公司/研发部,产品开发员
出访及挂职经历
2010.12-2011.12,Newcastle University, UK, EU Marie Curie International Incoming Fellow (欧盟居里夫人奖学金引进研究员)
2010.2-2010.12,University of Warwick, UK, Research fellow for Royal Society International Incoming Fellowship (英国皇家学会奖学金引进研究员)
2008.11-2009.2,University of Warwick, UK, Visiting Academic (访问学者)
科研项目
2017.7-2020.6,国家重点研发计划课题“宽温域余热高效利用及能质品位提升技术”,负责人
2015.7-2017.12,国家重点研发计划课题“边远岛礁微循环技术系统构建和集成示范”,子课题负责人
2016.1-2019.12,国家自然科学基金委面上基金项目“连续循环型热化学吸附热管的原理与特性研究”,项目负责人.
2015.7-2018.12,国家科技支撑计划课题“边远岛礁微循环技术系统构建和集成示范”,子课题负责人
2013.1-2015.12,国家自然科学基金委优秀青年基金项目“吸附式制冷与热功转换技术”,项目负责人
2012.10-2014.10,上海市浦江人才计划项目“新型固化混合吸附剂的传热传质及其余热制冷的循环特性研究”,项目负责人
2011.12-2013.12,上海市科委国际合作项目“低温热源驱动的有机朗肯发电与硅胶-水吸附制冷复叠联供循环”,项目负责人
2010.12-2011.12,外资项目,FP7 (European) Marie Curie Collaborative Projects (IIF), (with Newcastle Universtiy in UK) "Adsor-resor cycle for cogeneration", 中方负责人
2010.2-2010.12,外资项目,UK Royal Society collaborative project, (with Warwick University in UK) "Novel types of high conductivity composite adsorbent for low energy refrigeration and heat pumping", 中方负责人
2010.1-2014.12,国家优秀博士论文资助项目“新型活性炭复合吸附剂的工艺研制、传热传质及吸附特性与行为研究”,负责人
2009.1-2011.12,国家自然科学基金项目“低温热源驱动的两级复叠解吸型吸附冷冻循环”,负责人
2008.1-2011.12,国家自然科学基金重点项目“低品位余热高效利用的多效双重吸附制冷研究”,第二申请人
2005.1-2007.12,上海市自然科学基金项目“高效复合/混合吸附剂的吸附机理与动力学特性及制冷应用研究”,负责人
教学工作
课程名称:工程热力学C类; 授课对象:本科生; 学时数:27学时;学分:2学分.
课程名称:工程热力学D类; 授课对象:本科生; 学时数:72学时;学分:4学分.
课程名称:工程热力学I(全英文教学);授课对象:本科生;学时数:48学时;学分:3学分.
课程名称:高等工程热力学(全英文教学);授课对象:研究生;学时数:48学时;学分:3学分.
软件版权登记及专利
代表性专利:
[1] 高鹏,王丽伟,江龙,宋分平,周志松. 一种利用低品位热能驱动的有机朗肯循环发电装置. 专利号:ZL 201410680177.0,申请日:2014.11.25; 授权日:2016.03.02
[2] 李沛珂,黄首元,王丽伟. 基于吸附式制冷的汽车废热回收停车空调及其工作方法. 专利号:ZL 201310675642.7;申请日:2013.12.11;授权日:2016.02.10
[3] 王丽伟,江龙,高鹏,宋分平,王如竹。一种新型吸附式制冷与发电联供装置。ZL201310029203.9,专利申请日:2013.1.25,专利授权日:2015.7.1
[4] 王丽伟,王如竹,冯超,曹文学. 镧镍合金-膨胀石墨固体复合吸附剂及其制备方法. 国家发明专利,专利号:ZL200810041452.9. 授权公告日:2010.6.9
[5] 王丽伟,王如竹,徐律,吴静怡. 低温热源驱动的两级吸附式冷冻循环系统. 国家发明专利,专利号:ZL200810038831.2, 授权公告日:2010.4.21
[6] 王丽伟,王如竹,许煜雄,陆紫生. 泵液式复合交变热管型船用复合吸附制冰机. 专利号:ZL200510024576.2,授权公告日:2007.07.18.
[7] 王丽伟, 王如竹, 吴静怡. 类分离热管型船用吸附制冰机. 专利号: ZL 2003 1 0108924.5. 专利申请日:2003.11.27, 授权公告日:2005.12.21.
荣誉奖励
2016:中国青年科技奖
2014:国家自然科学二等奖
2013:上海市三八红旗手
2012:上海市浦江人才计划获得者
2011:教育部新世纪人才计划获得者
2010: 欧盟居里夫人奖学金(EU Marie Curie International Incoming Fellowship)获得者
2009:英国皇家学会奖学金 (Royal Society International Incoming Fellowship) 获得者
2009:上海市自然科学一等奖
2008:国家百篇优秀博士论文
2007:国际制冷学会青年学者奖,James Joule Award
2006:上海市研究生优秀成果,优秀博士论文
2006:上海交通大学优秀共青团员称号
2005:上海市优秀毕业生(博士)
近期论文
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1. Z.X. Wang, L.W. Wang*, P. Gao, Y. Yu, R.Z. Wang. Analysis of composite sorbents for ammonia storage to eliminate NOx emission at low temperatures. Applied Thermal Engineering, 2018, 128(5): 1382-1390.
2. Y. Yu, L.W. Wang, G.L. An. Experimental study on sorption and heat transfer performance of NaBr-NH3 for solid sorption heat pipe. International Journal of Heat and Mass Transfer, 2018, 117: 125-131
3. L.W. Wang*, L. Jiang, J. Gao, P. Gao, R.Z. Wang. Analysis of resorption working pairs for air conditioners of electric vehicles. Applied Energy, 2017, 207(1): 594-603
4. J. Gao, L.W. Wang, R.Z. Wang, Z.S. Zhou. Solution to the sorption hysteresis by novel compact composite multi-salt sorbents. Applied Thermal Engineering, 2017, 111(25): 580-585.
5. Y. Yu, L.W. Wang, L. Jiang, P. Gao, R.Z. Wang. The feasibility of solid sorption heat pipe for heat transfer. Energy Conversion and Management, 2017, 138(15): 148-155
6. Z.S. Zhou, L.W. Wang*, L. Jiang, P. Gao, R.Z. Wang. Non-equilibrium sorption performances for composite sorbents of chlorides–ammonia working pairs for refrigeration. International Journal of Refrigeration, 2016, 65: 60-68.
7. L. Jiang, F.Q. Zhu, L.W. Wang*, C.Z. Liu, R.Z. Wang. Experimental investigation on a MnCl2–CaCl2–NH3 thermal energy storage system. Renewable Energy, 2016, 91: 130-136.
8. L. Jiang, L.W. Wang*, Z.S. Zhou, F.Q. Zhu, R.Z. Wang. Investigation on non-equilibrium performance of composite adsorbent for resorption refrigeration. Energy Conversion and Management, 2016, 119(1): 67-74.
9. F.Q. Zhu, L. Jiang, L.W. Wang*, R.Z. Wang. Experimental investigation on a MnCl2-CaCl2-NH3 resorption system for heat and refrigeration cogeneration. Applied Energy, 2016, 181(1): 29-37.
10. P. Gao, X.F. Zhang, L.W. Wang*, R.Z. Wang, D.P. Li, Z.W. Liang, A.F. Cai. Study on MnCl2/CaCl2–NH3 two-stage solid sorption freezing cycle for refrigerated trucks at low engine load in summer. Energy Conversion and Management, 2016, 109(1): 1-9.
11. P. Gao, L.W. Wang*, R.Z. Wang, X.F. Zhang, D.P. Li, Z.W. Liang, A.F. Cai. Experimental investigation of a MnCl2/CaCl2-NH3 two-stage solid sorption freezing system for a refrigerated truck. Energy, 2016, 103(15): 16-26.
12. P. Gao, L.W. Wang*, R.Z. Wang, D.P. Li, Z.W. Liang. Optimization and performance experiments of a MnCl2/CaCl2–NH3 two-stage solid sorption freezing system for a refrigerated truck. International Journal of refrigeration, 2016, 71: 94-107.
13. L. W. Wang, C. Z. Liu, L. Jiang, Y. J. Zhao, R. Z. Wang. Performance of a resorption cycle for recovering the waste heat from vehicles. Science and Technology for the Built Environment, 2015, 21(3): 280-289,
14. P. Gao, L. Jiang, L.W. Wang*, R.Z. Wang, F. P. Song. Simulation and Experiments on an ORC System with Different Scroll Expanders Based on Energy and Exergy Analysis. Applied Thermal Engineering, 2015, 75: 880-888.
15. P. Gao, L.W. Wang*, R.Z. Wang, L. Jiang, Z.S. Zhou. Experimental investigation on a small pumpless ORC (organic rankine cycle) system driven by the low temperature heat source. Energy, 2015, 91: 324-333.
16. L.W. Wang, A.P. Roskilly, R.Z. Wang. Solar Powered Cascading Cogeneration Cycle with ORC and Adsorption Technology for Electricity and Refrigeration. Heat Transfer Engineering. 2014, 35(11-12): 1028-1034
17. L. Jiang, L.W. Wang*, R.Z. Wang, P. Gao, F.P. Song. Investigation on cascading cogeneration system of ORC (Organic Rankine Cycle) and CaCl2/BaCl2 two-stage adsorption freezer. Energy, 2014, 71: 377-387.
18. L. Jiang, L.W. Wang*, R.Z. Wang. Investigation on thermal conductive consolidated composite CaCl2 for adsorption refrigeration. International Journal of Thermal Science. 2014, 81: 68-75.
19. L.W. Wang, F. Ziegler, A.P. Roskilly, R.Z. Wang, Y.D. Wang. A resorption cycle for the cogeneration of electricity and refrigeration. Applied Energy, 2013, 106: 56–64.
20. L.W. Wang, S.J. Metcalf, R.E. Critoph, Z. Tamainot-Telto, R. Thorpe. Two types of natural graphite host matrix for composite activated carbon adsorbents. Applied Thermal Engineering, 2013, 50 (2): 1652–1657.
21. J. Wang, L.W. Wang*, W.L. Luo, R.Z. Wang. Experimental study of a two-stage adsorption freezing machine driven by low temperature heat source. International Journal of Refrigeration, 2013, 36(3): 1029–1036,
22. Z.Q. Jin, B. Tian, L.W. Wang*, R.Z. Wang. Comparison on Thermal Conductivity and Permeability of Granular and Consolidated Activated Carbon for Refrigeration. Chinese Journal of Chemical Engineering, 2013, 21(6): 676-682.
23. L. Jiang, L.W. Wang*, Z.Q. Jin, R.Z. Wang, Y.J. Dai. Effective thermal conductivity and permeability of compact compound ammoniated salts in the adsorption/desorption process. International Journal of Thermal Sciences, 2013, 71: 103-110
24. Z.Q. Jin, L.W. Wang*, L. Jiang, R.Z. Wang. Experiment on the thermal conductivity and permeability of physical and chemical compound adsorbents for sorption process. Heat Mass Transfer, (2013) 49:1117–1124
25. L.W. Wang, S.J. Metcalf, R. Thorpe, R.E. Critoph, Z. Tamainot-Telto. Development of thermal conductive consolidated activated carbon for adsorption refrigeration. Carbon, 2012, 50: 977 –986.
26. L. Jiang, L.W. Wang*, Z.Q. Jin, B. Tian, R.Z. Wang. Permeability and thermal conductivity of compact adsorbent of salts for sorption refrigeration. ASME-Heat Transfer, 2012, 134(10): 104503-6.
27. L.W.Wang, S.J. Metcalf, R. Thorpe, R.E. Critoph, Z. Tamainot-Telto. Thermal conductivity and permeability of consolidated expanded natural graphite treated with sulphuric acid. Carbon 2011, 49(14): 4812-19.
28. L.W. Wang, Z. Tamainot-Telto, R. Thorpe, R.E. Critoph, S.J. Metcalf, R.Z. Wang. Study of thermal conductivity, permeability, and adsorption performance of consolidated composite activated carbon adsorbent for refrigeration. Renewable Energy, 2011, 36: 2062-2066.
29. L.W. Wang, Z. Tamainot-Telto, S.J. Metcalf, R.E. Critoph, R.Z. Wang. Anisotropic thermal conductivity and permeability of compacted expanded natural graphite Applied Thermal Engineering, 2010, 30(13): 1805-1811
30. L.W. Wang, R.Z. Wang, R.G. Oliveira. A Review on Adsorption Working Pairs for Refrigeration. Renewable and Sustainable Energy Reviews. 2009, 13(3): 518-534.
31. L.W. Wang, H.S. Bao, R.Z. Wang. A comparison of the performances of adsorption and resorption refrigeration systems powered by the low grade heat. Renewable Energy, 2009, 34: 2373–2379
32. L.W. Wang, R.Z. Wang, Z.Z. Xia, J.Y. Wu. Studies on heat pipe type adsorption ice maker for fishing boats. International Journal of Refrigeration, 2008, 31(6 ): 989-997.
33. L.W. Wang, R.Z. Wang, Z.S. Lu, C.J. Chen, K. Wang, J.Y. Wu. The performance of two adsorption ice making test units using activated carbon and a carbon composite as adsorbents. Carbon, 2006, 44:2671-2680.
34. L.W. Wang, R.Z. Wang, Z.S. Lu, C.J. Chen, J.Y. Wu. Comparison of the Adsorption Performance of Compound Adsorbent in a Refrigeration Cycle with and without Mass Recovery. Chemical Engineering Science. 2006, 61 (11): 3761-3770.
35. L.W. Wang, R.Z. Wang, Z.S. Lu, Y.X. Xu, J.Y. Wu. Split heat pipe type compound adsorption ice making unit for fishing boats. International Journal of Refrigeration, 2006, 29: 456–468.
36. L.W. Wang, R.Z. Wang, J.Y. Wu, Y.X. Xu, S.G. Wang. Design, simulation and performance of a waste heat driven adsorption ice maker for fishing boat. Energy, 2006, 31:244-259.
37. L.W. Wang, R.Z. Wang, Z.S. Lu, C.J. Chen. Studies on Split Heat Pipe Type Adsorption Ice-making Test Unit for Fishing Boats: Choice of Heat Pipe Medium and Experiments under Unsteady Heating Sources. Energy Conversion and Management, 2006, 47(15-16):2081-2091.
38. L.W. Wang, R.Z. Wang, J.Y. Wu, K. Wang. A new type adsorber for adsorption ice maker on fishing boats,Energy Conversion and Management, 2005, 46: 2301-2316.
39. L.W. Wang, R.Z. Wang, J.Y. Wu, K. Wang. Research on the chemical adsorption precursor state of CaCl2-NH3 for adsorption refrigeration. Science in China, Ser.E, 2005, 48(1):70-82.
40. L.W. Wang, R.Z. Wang, Z.Z. Xia, J.Y. Wu. Design of Heat Pipe Type Adsorption Ice Maker for Fishing Boats. Chinese J Chem Eng, 2005, 13(3): 403-410.
41. L.W. Wang, R.Z. Wang, J.Y. Wu, K. Wang. Compound adsorbent for adsorptin ice maker on fishing boats, International Journal of Refrigeration, 2004, 27(4): 401-408.
42. L.W. Wang, R.Z. Wang, J.Y. Wu, K. Wang, S.G. Wang. Adsorption ice makers for fishing boats driven by the exhaust heat from diesel engine: choice of adsorption pair, Energy Conversion and Management, 2004,45:2043-2057.
43. L.W. Wang, R.Z. Wang, J.Y. Wu, K. Wang, Adsorption performances and refrigeration application of adsorption working pair of CaCl2-NH3, Science in China, Ser.E, 2004, 47(2):173-185.
44. L.W. Wang, J.Y. Wu, R.Z. Wang, Y.X. Xu, S.G. Wang. Experimental study of a solidified activated carbon-methanol adsorption ice maker. Applied Thermal Engineering, 2003, 23:1453-1462.
45. L.W. Wang, J.Y. Wu, R.Z. Wang, Y.X. Xu, S.G. Wang, X.R. Li. Study on the performance of activated carbon-methanol adsorption systems concerning heat and mass transfer. Applied Thermal Engineering, 2003, 23:1605-1617.