王如竹 教授
所在系所制冷与低温工程研究所
办公电话
通讯地址上海市东川路800号 上海交大机械与动力工程学院A楼404室
电子邮件rzwang@sjtu.edu.cn
个人主页https://orcid.org/0000-0003-3586-5728


教育背景 1987.09―1990.05上海交通大学制冷与低温工程学科; 1988.4-1990.3在联邦德国柏林自由大学物理系低温实验室博士生联合培养博士
1984.09―1987.02上海交通大学制冷与低温工程学科硕士
1980.09―1984.07上海交通大学制冷设备与低温技术专业学士

工作经历 1987.02―1987.08 上海交通大学动力机械工程系 助教
1990.09―1992.12 上海交通大学动力机械工程系　讲师
1992.12―1994.12 上海交通大学动力机械工程系　副教授
1994.12― 上海交通大学动力机械工程系　教授
1993.10― 上海交通大学制冷与低温工程研究所所长

出访及挂职经历 1988.04-1990.03 联邦德国柏林自由大学物理系低温实验室博士生联合培养。
其余出国学术交流和国际学术会议：美国，英国，法国，德国，意大利，加拿大，澳大利亚，瑞典，挪威，日本，韩国，捷克，泰国，印度尼西亚，埃及，科威特，沙特阿拉伯，斯洛文尼亚，新加坡，俄罗斯，白俄罗斯。。。。。。

研究方向 制冷空调中的能源利用；
低品位热能制冷技术；
太阳能与自然能源利用与建筑节能；
热泵技术及其应用；
Energy-Water-Air Nexus

科研项目 1995.01-1996.12 国家自然科学基金项目“超流氦传热中的几个特殊物理问题”（7万元），负责人；
1999.01-2001.12 国家自然科学基金项目“超流氦中的噪声沸腾传热及窄缝通道传热研究”（28万元）， 负责人；
2000.04-2004.04 国家重大基础研究计划973项目第9号课题，“高效节能中的重大科学问题：能量利用系统的稳态与动态特性”（246.5万元），负责人；
2003.01-2006.12 国家****科学基金项目“基于传热传质过程和吸附过程的吸附式制冷循环分析体系”(100万元），负责人
2006.01-2009.12 国家科技支撑计划（2006BAA04B03），“太阳能供热、制冷、通风系统与建筑的接口技术研究”(563万元)，负责人；
2005.10-2007.12 科技部世博专项 与上海市科委联合项目，05dz05807/2005BA908B07, "城市清洁能源高效利用系统技术研究与示范" (105 万元)， 结题，主持
2007.12-2011.12 上海市科委项目, 07DZ22938,"低温技术与测试应用服务平台"(800 万元)，已结题，主持.
2003.11-2005.12 上海市科委重点攻关项目，03DZ12012, "再生能源建筑一体化技术与系统研究" (100 万元)，已结题，主持
2008.01－2011.12 国家自然科学基金重点项目(项目编号：**)，“低品位余热高效利用的多效双重吸附制冷研究”（190万元），负责人；
2008.01-2010.12 意大利环境保护、国土资源与海洋部国际合作项目，“上海交大绿色能源实验室”(140万欧元)， 负责人；
2003.07- 日本大金工业株式会社国际合作项目， “先进空调技术、系统与市场”(累计4.5 亿日元)， 负责人；
2011.01-2014.12 国家自然科学基金委中日韩A3（亚洲三国）前瞻计划国际合作项目“太阳能/地热驱动的吸附－吸收四联供系统”的中方合作课题“高效太阳能吸附制冷系统研究”（200万元），负责人；
2011.03-2012.05 江苏太阳雨集团公司“基于黑箱吸热体的跟踪式聚光型中温太阳能集热系统
”（110万元）， 负责人；
2011.05-2011.12 山东皇明太阳能有限公司“太阳能热水驱动的硅胶---水吸附制冷机组”（到款16万元），负责人
2001.01-2003.12 教育部博士点基金， ， “太阳能吸附-喷射制冷联合循环研究” (5.3万元)，已结题， 主持
2005.01-2008.12 教育部博士点基金， ，”微型冷热电联供系统能量管理及运行特性研究” (6万元)，已结题， 主持
2008.01-2011.12 教育部博士点基金， ，”固化混合吸附剂-水吸附制冷工质对的性能研究” (8万元)，已结题， 主持
2012.01-2015.12 教育部博士点基金优先支持项目， 010， “热湿独立控制热泵能源系统循环的理论和实验研究” (40万元),在研，主持
2012.01-2014.12 教育部****和创新团队发展计划，IRT1159,”制冷空调系统与高效能源利用” (300万元)，在研， 主持
2010.10-2013.10 力诺瑞特-上海交大太阳能研究院研发合作项目 (150万元)， 在研，主持
2013.01-2022.12 力诺瑞特太阳能热泵产业化研发项目（1000 万元），在研，主持
2014.01－2018.12 国家自然科学基金重点项目(项目编号：**)，“基于干燥剂除湿和蒸发制冷耦合的高效热泵循环研究”（280万元），负责人； 在研。
2015.10－2018.09 国家自然科学基金：国际(地区)合作与交流项目(项目编号： )，“太阳能与生物质能互补的冷热电联供系统的热力特性及集成优化研究”（300.8万元），负责人； 完成。
2016.01－2021.12 国家自然科学基金创新群体项目(项目编号： **)，“传热传质与高效热力系统的基础研究”（1200万元），负责人； 在研。
2016.07-2019.06 十三五国家重点研发计划项目（项目编号：2016YFB**），“低品位余能回收技术及热泵装备研发与示范”（7500万元，其中国拨2500万元） ，负责人； 在研。
2018.06-2020.06 国家自然科学基金中国-瑞典国际合作交流 “基于空间分析的热泵供暖应用技术经济潜力评价研究”（50万元）， 负责人，完成。
2018.08-2018.11 国家自然科学基金， “工程热物理学科可再生能源与新能源领域现状及发展战略调研”（20万元），负责人，完成
2017.06-2020.06 江苏启东昂彼得堡有限公司，“上海交通大学-江苏昂彼特堡采暖及储热技术联合研究中心”（300万元），负责人，完成。
2017.09-2018.10， 上海汉钟精机有限公司，“水蒸气高温热泵系统研究及样机开发项目”（100万元），负责人；完成。
2019-2021， 上海交通大学-上海汉钟精机有限公司联合研究中心（300万元），负责人；在研。
2019.07-2022.06，上海交通大学-欧菲汽车热管理联合研究中心（600万元），负责人；在研。
2021.01-2025.12 国家自然科学基金重点项目“大温升热泵及蒸汽发生系统的循环构建与应用适应性研究”（**）（380万元）；负责人；在研。


代表性论文专著 主要著作：
1．王如竹，吴静怡，代彦军等著。吸附式制冷，机械工业出版社（国家科学技术学术著作出版基金资助出版，机械工业出版社高水平著作出版基金资助项目），2002年7月第1版。ISBN-7-111-09532-4
2．王如竹、丁国良等著。最新制冷空调技术。科学出版社，2002年9月第1版。ISBN7-03-010677-6
3．王如竹、代彦军编著.太阳能制冷，化学工业出版社，2007年1月。ISBN7-5025-9317-9
4．王如竹主编。制冷学科进展研究与发展报告。科学出版社，2007年4月第1版。ISBN978-7-03-018779-6
5．王如竹，王丽伟，吴静怡著。吸附式制冷理论与应用。科学出版社，2007年9月第1版。ISBN978-7-03-019886-0
6．张鹏，王如竹著。超流氦传热。科学出版社，2009年1月第1版。ISBN978-7-03-020240-6
7．王如竹，翟晓强主编。绿色建筑能源系统，上海交通大学出版社，2013年10月。ISBN:987-7-313-10243-0
8．Ruzhu Wang, Liwei Wang, Jingyi Wu. Adsorption Refrigeration Technology: Theory and application, John Wiely & Sons Singapore Pte. Ltd. 2014, ISBN:978-1-118-19743-1
9．R.Z. Wang, T.S. Ge., Advances in Solar Heating and Cooling., Elsevier-Woodhead Publishing publications, 2016, ISBN: 978-0-08-100301-5
10．R.Z. Wang, X.Q. Zhai. Handbook of Energy Systems in Green Building, Springer,2018, ISBN:978-3-662-49088-4
近期顶刊论文：
1.Yaodong Tu，Ruzhu Wang*, Yannan Zhang, Jiayun Wang. Progress and Expectation of Atmospheric Water Harvesting. Joule (2018). 2, 1452-1475.
https://doi.org/10.1016/j.joule.2018.07.015
2.Bangjun Li, Lingji Hua, Yaodong Tu, Ruzhu Wang*. A Full-Solid-State Humidity Pump for Localized Humidity Control. Joule (2019)3, 1427-1436.
https://doi.org/10.1016/j.joule.2019.03.018
3.Si Wu, Tingxian Li,* Zhen Tong, Jingwei Chao, Tianyao Zhai, Jiaxing Xu, Taisen Yan, Minqiang Wu, Zhenyuan Xu, Hua Bao, Tao Deng,* and Ruzhu Wang*.. High-Performance Thermally Conductive Phase Change Composites by Large-Size Oriented Graphite Sheets for Scalable Thermal Energy Harvesting. Adv Mater (2019)31, **.
https://doi.org/10.1002/adma.
4.Biye Cao, Yaodong Tu, Ruzhu Wang*. A Moisture-Penetrating Humidity Pump Directly Powered by One-Sun Illumination. iScience (2019) 15, 502-513. https://doi.org/10.1016/j.isci.2019.05.013
5.Chenxi Wang, Lingji Hua,Hongzhi Yan, Bangjun Li, Yaodong Tu, Ruzhu Wang*.(2020). A Thermal Management Strategy for Electronic Devices Based on Moisture Sorption-Desorption Processes, Joule (2019), 4, 435–447,
https://doi.org/10.1016/j.joule.2019.12.005.
6.Yannan Zhang , Haohui Dong , Ruzhu Wang *, Penghui Feng. Air humidity assisted sorption thermal battery governed by reaction wave model. Energy Storage Materials (2020) 27: 9–16
https://doi.org/10.1016/j.ensm.2020.01.012
7.Jiaxing Xu, Tingxian Li,* Jingwei Chao, Si Wu, Taisen Yan, Wenchen Li, Biye Cao, and Ruzhu Wang* (2020). Efficient Solar-Driven Water Harvesting from Arid Air with Metal–Organic Frameworks Modified by Hygroscopic Salt. Angew. Chem. Int. Ed. (2020), 59, 2–11.
https://doi.org/10.1002/anie.
8.Zhenyuan Xu, Lenan Zhang, Lin Zhao, Bangjun Li, Bikram Bhatia, Chenxi Wang, Kyle L. Wilke, Youngsup Song, Omar Labban,John H. Lienhard, Ruzhu Wang * and Evelyn N. Wang *. Ultrahigh-efficiency desalination via a thermally-localized multistage solar still. Energy & Environmental Science, (2020), https://doi.org/10.1039/c9ee04122b
9.Yannan Zhang, Ruzhu Wang*. Sorption Thermal Energy Storage: Concept, Process, Applications and Perspectives. Energy Storage Materials 27 (2020) 352–369.
https://doi.org/10.1016/j.ensm.2020.02.024
10.Akram Entezari, Mojtaba Ejeian, Ruzhu Wang*. Super atmospheric water harvesting hydrogel with alginate chains modified with binary salts. ACS Materials Letters, 4(2020) https://doi.org/10.1021/acsmaterialslett.9b00315
11.Xuancan Zhu, Tianshu Ge,* Fan Yang，Meng Lyu, Chunping Chen, Dermot O’Hare, and Ruzhu Wang*. Efficient CO2 Capture from Ambient Air with Amine-Functionalized Mg–Al Mixed Metal Oxides. Journal of Materials Chemistry A, DOI: 10.1039/d0ta05079b

主要论文可以链接： https://orcid.org/0000-0003-3586-5728 获得最新的全部信息
[1] Z.S. Lu, R.Z. Wang, Z.Z. Xia, X.R. Lu, C.B. Yang, Y.C. Ma, G.B. Ma. Study of a novel solar
adsorption cooling system and a solar absorption cooling system with new CPC collectors,
Renewable Energy, 2013, 50: 299-306.
[2] J.K. Kiplagat, R.Z. Wang, R.G. Oliveira, T.X. Li, M. Liang. Experimental study on the
effects of the operation conditions on the performance of a chemisorption air conditioner
powered by low grade heat, Applied Energy, 2013, 103: 571-580.
[3] Y.L. Yin, Z.P. Song, Y. Li, R.Z. Wang, X.Q. Zhai. Experimental investigation of a mini-type
solar absorption cooling system under different cooling modes. Energy and Buildings, 2012,
47: 131-138.
[4] Z.S. Lu, L.W. Wang, R.Z. Wang. Experimental analysis of an adsorption refrigerator with
mass and heat-pipe heat recovery process. Energy Conversion and Management, 2012, 53(1):
291-297.
[5] S. Du, R.Z. Wang, P. Lin, Z.Z. Xu, Q.W. Pan, S.C. Xu. Experimental studies on an air-cooled
two-stage NH3-H2O solar absorption air-conditioning prototype. Energy, 2012,45(1):
581-587.
[6] T.X. Li, R.Z. Wang, J.K. Kiplagat, L. Ma. Performance analysis of a multi-mode
thermochemical sorption refrigeration system for solar-powered cooling. International
Journal of Refrigeration, 212, 35(3): 532-542.
[7] L.X. Gong, R.Z. Wang, Z.Z. Xia, Z.S. Lu. Experimental study on an adsorption chiller
employing lithium chloride in silica gel and methanol,International Journal of Refrigeration,
2012,35(7):1950-1957
[8] S. Deng, Y.J. Dai, R.Z. Wang.Performance study on hybrid solar-assisted CO2 heat pump
system based on the energy balance of net zero energy apartment , Energy and Buildings,
2012, 54: 337-349.
[9] C. Li, R.Z. Wang.Building integrated energy storage opportunities in China, Renewable and
Sustainable Energy Reviews, 2012, 16(8):6191-6211.
[10] W.T. Xie, Y.J. Dai, R.Z. Wang.Theoretical and experimental analysis on efficiency factors
and heat removal factors of Fresnel lens solar collector using different cavity receivers. Solar
Energy, 2012, 86(9): 2458-2471.
[11] R.Z. Wang, X. Yu, T.S. Ge, T.X. Li .The present and future of residential refrigeration, power
generation and energy storage , Applied Thermal Engineering, In Press, Corrected Proof,
Available online 28 February 2012.
[12] H.S. Bao, R.Z. Wang, R.G. Oliveira, T.X. Li. Resorption system for cold storage and
long-distance refrigeration,Applied Energy, 93:479-487.
[13] Z.S. Lu, R.Z. Wang, Z.Z. Xia, Q.B. Wu, Y.M. Sun, Z.Y. Chen. An analysis of the
performance of a novel solar silica gel–water adsorption air conditioning, Applied Thermal
Engineering, 2011, 31(17-18): 3636-3642.H.S. Bao, R.G. Oliveira, R.Z. Wang, L.W. Wang,
Z.W. Ma. Working pairs for resorption refrigerator, Applied Thermal Engineering, 2011,
31(14-15): 3015-3021.
[14] L.X. Gong, R.Z. Wang, Z.Z. Xia, C.J. Chen. Design and performance prediction of a new
generation adsorption chiller using composite adsorbent , Energy Conversion and
Management, 2011, 52(6): 2345-2350.
[15] J. Xu, R.G. Oliveira, R.Z. Wang. Resorption system with simultaneous heat and cold
57
production, International Journal of Refrigeration, 2011, 34(5): 1262-1267.
[16] T.S. Ge, Y.J. Dai, R.Z. Wang. Performance study of silica gel coated fin-tube heat exchanger
cooling system based on a developed mathematical model, Energy Conversion and
Management, 2011, 52(6): 2329-2338.
[17] J. Deng, R.Z. Wang, G.Y. Han. A review of thermally activated cooling technologies for
combined cooling, heating and power systems , Progress in Energy and Combustion Science,
2011, 37(2): 172-203.
[18] Z.Z. Xia, C.J. Chen, R.Z. Wang. Numerical simulation of a closed wet cooling tower with
novel design , International Journal of Heat and Mass Transfer, 2011, 54(11-12): 2367-2374.
[19] M.L. Jiang, J.Y. Wu, R.Z. Wang.Research on refrigerant flow characteristics and performance
of a multi-functional heat pump system, Energy Conversion and Management, 2011, 52(6):
2323-2328.
[20] P. Lin, R.Z. Wang, Z.Z. Xia. Numerical investigation of a two-stage air-cooled absorption
refrigeration system for solar cooling: Cycle analysis and absorption cooling performances,
Renewable Energy, 2011, 36(5): 1401-1412.
[21] W.T. Xie, Y.J. Dai, R.Z. Wang. Numerical and experimental analysis of a point focus solar
collector using high concentration imaging PMMA Fresnel lens, Energy Conversion and
Management, 2011, 52(6): 2417-2426.
[22] J.J. Guo, J.Y. Wu, R.Z. Wang, S. Li. Experimental research and operation optimization of an
air-source heat pump water heater,Applied Energy, 2011, 88( 11): 4128-4138.
[23] X. Yu, R.Z. Wang, X.Q. Zhai. Year round experimental study on a constant temperature and
humidity air-conditioning system driven by ground source heat pump, Energy, 2011, 36(2):
1309-1318.
[24] D.L. Zhao, Y. Li, Y.J. Dai, R.Z. Wang. Optimal study of a solar air heating system with
pebble bed energy storage, Energy Conversion and Management, 2011, 52(6): 2392-2400.
[25] T.X. Li, R.Z. Wang, J.K. Kiplagat, H. Chen, L.W. Wang. A new target-oriented methodology
of decreasing the regeneration temperature of solid–gas thermochemical sorption
refrigeration system driven by low-grade thermal energy, International Journal of Heat and
Mass Transfer, 2011, 54(21-22): 4719-4729.
[26] H.S. Bao, R.Z. Wang, L.W. Wang. A resorption refrigerator driven by low grade thermal
energy, Energy Conversion and Management, 2011, 52(6): 2339-2344.
[27] R.Z. Wang, Z.Z. Xia, L.W. Wang, Z.S. Lu, S.L. Li, T.X. Li, J.Y. Wu, S. He. Heat transfer
design in adsorption refrigeration systems for efficient use of low-grade thermal energy,
Energy, 2011, 36(9): 5425-5439.
[28] L. Xu, R.Z. Wang, T.X. Li, L.W. Wang.Experimental study on the performance of
double-effect and double-way thermochemical sorption refrigeration cycle, Applied
Thermal Engineering, 2011, 31(17-18): 3658-3663.
[29] L. Xu, R.Z. Wang, T.X. Li, L.W. Wang. Experimental study on a combined double-way
chemisorption refrigeration system, International Journal of Refrigeration, 2011, 34(4):
914-921.
[30] S. Deng, Y.J. Dai, R.Z. Wang, X.Q. Zhai. Case study of green energy system design for a
multi-function building in campus, Sustainable Cities and Society, 2011, 1(3): 152-163.
[31] J.J. Guo, J.Y. Wu, R.Z. Wang.A new approach to energy consumption prediction of domestic
heat pump water heater based on grey system theory, Energy and Buildings, 2011, 43(6):
1273-1279.
[32] S. Deng, Y.J. Dai, R.Z. Wang, T. Matsuura, Y. Yasui. Comparison study on performance of
58
a hybrid solar-assisted CO2 heat pump, Applied Thermal Engineering, 2011, 31(17-18):
3696-3705.
[33] C. Wang, P. Zhang, R.Z. Wang. Performance of solid–gas reaction heat transformer system
with gas valve control .Chemical Engineering Science, 2010, 65(10):2910-2920.
[34] C.J. Chen, R.Z. Wang, Z.Z. Xia, J.K. Kiplagat, Z.S. Lu. Study on a compact silica
gel–water adsorption chiller without vacuum valves: Design and experimental study, Applied
Energy, 2010, 87(8): 2673-2681.
[35] C.J. Chen, R.Z. Wang, Z.Z. Xia, J.K. Kiplagat. Study on a silica gel–water adsorption chiller
integrated with a closed wet cooling tower. International Journal of Thermal Sciences, 2010,
49(3): 611-620.
[36] H. S. Bao, R.G Oliveira, R.Z. Wang, L.W. Wang. The choice of low temperature salt for a
resorption refrigerator. Industrial & Engineering Chemistry Research 49(2010) 4897-4903.
[37] H. Zhai, Y.J. Dai, J.Y. Wu, R.Z. Wang, L.Y. Zhang. Experimental investigation and analysis
on a concentrating solar collector using linear Fresnel lens. Energy Conversion and
Management, 2010, 51(1):48-55.
[38] J.K. Kiplagat, R.Z. Wang, R.G. Oliveira, T.X. Li. Lithium chloride – Expanded graphite
composite sorbent for solar powered ice maker. Solar Energy, 2010, 84(9):1587-1594
[39] L. X. Gong, R. Z. Wang, Z. Z. Xia and C. J. Chen. Adsorption Equilibrium of Water on a
Composite Adsorbent Employing Lithium Chloride in Silica Gel. J. Chem. Eng. Data, 2010,
55 (8):2920–2923
[40] L. Xia, P. Zhang, R.Z. Wang. Numerical heat transfer analysis of the packed bed latent heat
storage system based on an effective packed bed model. Energy, 2010, 35(5):2022-2032.
[41] L. Xia, P. Zhang, R.Z. Wang. Preparation and thermal characterization of expanded
graphite/paraffin composite phase change material. Carbon, 2010, 48(9): 2538-2548.
[42] R.Z. Wang, X.Q. Zhai. Development of solar thermal technologies in China . Energy, 2010,
35(11):4407-4416.
[43] T.S. Ge, F. Ziegler, R.Z. Wang, H. Wang Performance comparison between a solar driven
rotary desiccant cooling system and conventional vapor compression system (performance
study of desiccant cooling). Applied Thermal Engineering, 2010, 30(6):724-731.
[44] T.S. Ge, F. Ziegler, R.Z. Wang. A mathematical model for predicting the performance of a
compound desiccant wheel (A model of compound desiccant wheel). Applied Thermal
Engineering, 2010, 30(8):1005-1015.
[45] T.S. Ge, Y.J. Dai, R.Z. Wang, Z.Z. Peng. Experimental comparison and analysis on silica gel
and polymer coated fin-tube heat exchangers. Energy, 2010, 35(7): 2893-2900.
[46] T.X. Li, R.Z. Wang, J. K. Kiplagat, L.W. Wang. Performance improvement of a combined
double-way sorption refrigeration cycle using re-heating process. AIChE Journal, 2010, 56
(2): 477-484.
[47] T.X. Li, R.Z. Wang, J.K. Kiplagat, H. Chen. Experimental study and comparison of
thermochemical resorption refrigeration cycle and adsorption refrigeration cycle. Chemical
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refrigeration driven by low-grade thermal energy, Chinese Science Bulletin, 2009, 54(6):
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low-grade thermal energy over long distance by ammonia-water absorption, Chinese Science
Bulletin, 2009, 54(6): 948-957
[55] ZhaoPei Song, RuZhu Wang and XiaoQiangZhai. Solar-driven high temperature radiant
cooling, Chinese Science Bulletin, 2009, 54(6): 978-985.
[56] R.Z. Wang, T. S. Ge, C. J. Chen, Q. Ma, Z. Q. Xiong. Solar sorption cooling systems for
residential applications: options and guidelines, International Journal of Refrigeration, 2009,
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[57] Z.Z. Xia, G.Z. Yang, R.Z. Wang. Capillary-assisted flow and evaporation inside
circumferential rectangular micro groove, International Journal of Heat and Mass Transfer,
2009, 52(3-4): 952-961.
[58] 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.
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34(11): 2373-2379
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Renewable Energy, 2009, 34(12): 2757-2764
[61] X.Q. Zhai, R.Z. Wang.A review for absorbtion and adsorbtion solar cooling systems in China,
Renewable and Sustainable Energy Reviews, 2009, 13(6-7): 1523-1531.
[62] X.Q. Zhai, R.Z.Wang.Experimental investigation and theoretical analysis of the solar
adsorption cooling system in a green building, Applied Thermal Engineering, 2009, 29(1):
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performance analysis of a triple-effect solid–gas thermochemical sorption refrigeration
system with internal heat recovery, Chemical Engineering Science, 2009, 64(14): 3376-3384.
[64] S.L. Qi, P. Zhang, R.Z. Wang, L.X. Xu. Erratum to “Flow boiling of liquid nitrogen in
micro-tubes: Part II – Heat transfer characteristics and critical heat flux” [Int. J. Heat and
Mass Transfer 50 (2007) 5017–5030], International Journal of Heat and Mass Transfer, 2009,
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chemisorption refrigeration cycle based on adsorption and resorption processes, International
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characteristics of a consolidated composite sorbent for solar-powered thermochemical
cooling systems, Solar Energy, 2009, 83(9): 1742-1755.
[67] T.S. Ge, Y. Li, R.Z. Wang, Y.J. Dai. Experimental study on a two-stage rotary desiccant
cooling system, International Journal of Refrigeration, 2009, 32(3): 498-508.
[68] Z.Q. Xiong, Y.J. Dai, R.Z.Wang. Investigation on a two-stage solar liquid-desiccant (LiBr)
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29(5-6): 1209-1215
[69] Y.M. Han, R.Z. Wang, Y.J. Dai. Thermal stratification within the water tank, Renewable and
Sustainable Energy Reviews, 2009, 13(5): 1014-1026.
[70] T.X. Li, R.Z. Wang, J.K. Kiplagat, L.W. Wang. Performance study of a consolidated
manganese chloride–expanded graphite compound for sorption deep-freezing processes,
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[71] Z.Z. Xia, R.Z. Wang, D.C. Wang, Y.L. Liu, J.Y. Wu, C.J. Chen. Development and comparison
of two-bed silica gel–water adsorption chillers driven by low-grade heat source, International
Journal of Thermal Sciences, 2009, 48(5): 1017-1025.
[72] P. Lin, R.Z. Wang, Z.Z. Xia, Q. Ma. Experimental investigation on heat transportation over
long distance by ammonia–water absorption cycle, Energy Conversion and Management,
2009, 50(9): 2331-2339.
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combined double-way solid–gas thermochemical sorption refrigeration cycle, International
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Sciences, 2009, 7(2):91-96.
[75] K. Daou, R. Z. Wang, G. Z. Yang, Z. Z. Xia. Theoretical comparison of the refrigerating
performances of a CaCl2 impregnated composite adsorbent to those of the host silica gel.
International Journal of Thermal Sciences, 2008, 47(1):68-75.
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micro-trigeneration system based on the structural theory of thermoeconomics. Energy, 2008,
33(9):1417-1426.
[77] T. S. Ge, Y. Li, R. Z. Wang, Y. J. Dai. A review of the mathematical models for predicting
rotary desiccant wheel. Renewable & Sustainable Energy Reviews, 2008, 12(6):1485-1528.
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desiccant cooling system, Energy, 2008(33):1807-1815
[79] Y. H. Huang, P. Zhang, R. Z. Wang. Study on surface tension of fluid helium three.
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[80] S. Li, J. Y. Wu, R. Z. Wang, Y. Huangfu. Investigation of transient behavior of a novel
thermal management controller. Applied Thermal Engineering, 2008, 28(8-9):824-834.
[81] T. X. Li, R. Z. Wang, L. W. Wang, Z. S. Lu. Experimental investigation of an innovative
dual-mode chemisorption refrigeration system based on multifunction heat pipes.
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multifunction heat pipe type heat recovery two-stage sorption refrigeration system. Energy
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CaCl2/activated carbon as compound adsorbent. Applied Thermal Engineering, 2008,
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bed for chemisorption icemakers. Chemical Engineering Journal, 2008, 138(1-3):416-424.
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system operating under different kinds of cycle. Industrial & Engineering Chemistry
Research, 2008, 47(4):1102-1110.
[86] C. Wang, P. Zhang, R. Z. Wang. Investigation of solid-gas reaction heat transformer system
with the consideration of multistep reactions. AIChE Journal, 2008, 54(9):2464-2478.
[87] 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.
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Engineering, 2008, 28(4):317-326.
[89] Z. Z. Xia, G. Z. Yang, R. Z. Wang. Experimental investigation of capillary-assisted
evaporation on the outside surface of horizontal tubes. International Journal of Heat and
Mass Transfer, 2008, 51(15-16):4047-4054.
[90] X. Q. Zhai, R. Z. Wang. Experiences on solar heating and cooling in China. Renewable &
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[91] X. Q. Zhai, R. Z. Wang, Y. J. Dai, J. Y. Wu, Q. Ma. Experience on integration of solar
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85(5):297-311.
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validation of the variable-refrigerant-volume (VRV) air-conditioning system in EnergyPlus.
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[94] R.Z. Wang, Y. Li. Perspectives for natural working fluids in China. International Journal of
Refrigeration, 2007, 30(4): 568-581
[95] Y.W. Li, R.Z. Wang, J.Y. Wu and Y.X. Xu. Experimental performance analysis and
optimization of a direct expansion solar-assisted heat pump water heater, Energy, 2007, 32(8):
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characteristics of turbulent liquid nitrogen flow in micro-tubes, International Journal of Heat
and Mass Transfer, 2007, 50( 9-10): 1993-2001
[98] J. Di, J.Y. Wu, Z.Z. Xia and R.Z. Wang. Theoretical and experimental study on characteristics
of a novel silica gel–water chiller under the conditions of variable heat source temperature,
International Journal of Refrigeration, 2007, 30(3): 515-526
[99] H.L. Luo, R.Z. Wang, Y.J. Dai, J.Y. Wu, J.M. Shen and B.B. Zhang. An efficient
solar-powered adsorption chiller and its application in low-temperature grain storage, Solar
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[100] J. Zhang, R.Z. Wang and J.Y. Wu. System optimization and experimental research on air
source heat pump water heater, Applied Thermal Engineering, 2007, 27(5-6): 1029-1035
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application of split heat pipe adsorption ice maker, Energy Conversion and
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[102] C.X. Jia, Y.J. Dai, J.Y. Wu and R.Z. Wang. Use of compound desiccant to develop high
performance desiccant cooling system, International Journal of Refrigeration, 2007, 30(2):
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[103] R.G. Oliveira and R.Z. Wang. A consolidated calcium chloride-expanded graphite
compound for use in sorption refrigeration systems, Carbon, 2007, 45(2): 390-396
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chiller for Micro-scale BCHP system application, Energy and Buildings, 2007, 39(2):
120-127
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flow air-conditioning system under cooling conditions, Energy and Buildings, 2007, 39(2):
212-220
[106] K. Daou, R.Z. Wang, Z.Z. Xia and G.Z. Yang. Experimental comparison of the sorption and
refrigerating performances of a CaCl2 impregnated composite adsorbent and those of the
host silica gel, International Journal of Refrigeration, 2007, 30(1): 68-75.
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novel multifunction heat pipe solid sorption icemaker for fishing boats using
CaCl2/activated carbon compound–ammonia, International Journal of
Refrigeration, 2007,30(1): 76-85
[108] R.G. Oliveira, R.Z. Wang and C. Wang. Evaluation of the cooling performance of a
consolidated expanded graphite–calcium chloride reactive bed for chemisorption icemaker,
International Journal of Refrigeration, 2007, 30(1): 103-112
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system for a green building, Energy and Buildings, 2007, 39(8): 985-993
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direct-expansion solar-assisted heat pump water heater, Applied Thermal Engineering,
2007,27(17-18): 2858-2868
[111] Y.M. Han, R.Z. Wang, Y.J. Dai, A.H. Xiong. Studies on the light permeance characteristic
of a Fresnel lens group applied in high concentration solar energy. Journal of Optics A:Pure
and Applied Optics. 2007, 9: 988-997.
[112] T.X. Li, R.Z. Wang, L.W. Wang, Z.S. Lu and C.J. Chen. Performance study of a high
efficient multifunction heat pipe type adsorption ice making system with novel mass and
heat recovery processes, International Journal of Thermal Sciences, 2007, 46:1267-1274.
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prototype of an integrated thermal management controller for internal-combustion
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[115] S. Li, J.Y. Wu, R.Z. Wang and Y. Huangfu.Study of heat and mass transfer in integrated
thermal management controller (ITMC) employed in waste heat recovery application,
Energy Conversion and Management, 2007, 48(12): 3074-3083
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[116] Y.P. Zhou, J.Y. Wu and R.Z. Wang. Performance of energy recovery ventilator with various
weathers and temperature set-points, Energy and Buildings, 2007, 39(12): 1202-1210.
[117] S. L. Qi, P. Zhang, R. Z. Wang and L. X. Xu, Single-phase pressure drop and heat transfer
characteristics of turbulent liquid nitrogen flow in micro-tubes. International Journal of
Heat and Mass Transfer, 2007. V50(9-10): 1993-2001.
[118] S. L. Qi, P. Zhang, R. Z. Wang and L. X. Xu, Flow boiling of liquid nitrogen in micro-tubes:
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[120] P. Zhang, C. Wang and R. Z. Wang, Composite reactive block for heat transformer system
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[127] H.L. Luo, Y.J. Dai, R.Z. Wang, J.Y. Wu, Y.X. Xu and J.M. Shen. Experimental investigation
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[129] K. Wang, J.Y. Wu, R.Z. Wang and L.W. Wang. Composite adsorbent of CaCl2 and
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[130] K. Wang, J.Y. Wu, R.Z. Wang, L.W. Wang. Effective thermal conductivity of expanded
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performance of compound adsorbent in a refrigeration cycle with and without mass
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[132] P. Zhang, M. Murakami and R.Z. Wang. Study of the transient thermal wave heat transfer in
a channel immersed in a bath of superfluid helium. International Journal of Heat and Mass
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[133] G.Z. Yang, Z.Z. Xia, R.Z. Wang, DaouKeletigui, D.C. Wang, Z.H. Dong and X. Yang.
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desiccant wheels fabricated with silica gel and composite desiccant material .Energy
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of waste heat and solar energy , Progress in Energy and Combustion Science, 2006, 32(4):
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ventilation of a solar air collector,Energy and Buildings, 2005, 37(4): 373-381.
[145] H.J. Hou, Z.F. Wang, R.Z. Wang and P.M. Wang. A new method for the measurement of
solar collector time constant.Renewable Energy , 2005,30(6): 855-865.
[146] Zhai, X.Q.; Dai, Y.J.; Wang, R.Z.Comparison of heating and natural ventilation in a solar
house induced by two roof solar collectors.Applied Thermal Engineering , 2005,25(5-6):
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chiller with novel design.International Journal of Refrigeration, 2005, 28(2): 218-230.
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driver cabin adsorption air conditioning prototype machine. Energy Conversion and
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adsorption air conditioner powered by exhausted heat from a diesel locomotive. Applied
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CCHP driven by stirling engine. Energy Conversion and Management ,2004,
45(9-10):1433-1442.
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JIN Xinqiao, GU Bo, BAI Jingfeng,LIUHongmin& YE Xiaojiang. Experimental
investigation of integrated air purifying technology for bioaerosol removal and inactivation
in central air-conditioning system, Chinese Science Bulletin, 2004, 49(3):306-312.
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adsorption refrigerator using an evacuated tube for thermal insulation, Renewable Energy,
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[170] Y.H. Kuang, K. Sumathy, R.Z. Wang. Study on a direct-expansion solar-assisted heat pump
water heating system. International Journal of Energy Research, 2003,27:531-548.
[171] X.J.Zhang, Y.J.Dai, R.Z.Wang. A simulation study of heat and mass transfer in a
honeycombed rotary desiccant dehumidifier. Applied Thermal
Engineering,2003,23(8):989-1003
[172] P. Zhang, M. Murakami, R.Z. Wang. Investigation of the chaotic pressure fluctuation
induced by the vapor bubble oscillation in the film boiling of superfluid helium. Heat and
Mass Transfer 39 (2003) 477–482
[173] Wang, L.W.; Wu, J.Y.; Wang, R.Z.; Xu, Y.X.; Wang, S.G.Experimental study of a solidified
activated carbon-methanol adsorption ice maker，Applied Thermal Engineering Volume: 23,
Issue: 12, August, 2003, pp. 1453-1462
[174] L. W. Wang, J. Y. Wu, R. Z. Wang, Y. X. Xu, S. G. Wang and X. R. Li.Study of the
performance of activated carbon–methanol adsorption systems concerning heat and mass
transfer . Applied Thermal Engineering,Volume 23, Issue 13 , September 2003, Pages
1605-1617
[175] Li M, Wang RZ, Yun F, et al. An effective flat plate solar heating and cooling hybrid
system. Adsorption Science and Technology, 2003, 21 (5): 487-499
[176] Wang SG, Wang RZ, Wu JY, et al. Experimental results and analysis for adsorption
ice-making system with consolidated adsorbent, Adsorption, 2003,9 (4): 349-358
[177] Liu YF, Wang RZ.Pore structure of new composite adsorbent SiO2 xH2O yCaCl2 with high
uptake of water from air, SCI CHINA SER E 46 (5): 551-559 OCT 2003
[178] Wu, J.Y.; Wang, R.Z.; Xu, Y.X. Experimental results on operating parameters influence
for an adsorption refrigerator, International Journal of Thermal Sciences, 2002, 41(2):
137-145.
[179] Y.J.Dai, R.Z Wang, H.F.Zhang, Parametric analysis to improve the performance of a solar
desalination unit with humidification and dehumidification, DESALINATION, 2002, 142,
107-118.
[180] Wang, W.; Qu, T.F.; Wang, R.Z. Influence of degree of mass recovery and heat
regeneration on adsorption refrigeration cycles. Energy Conversion and Management
2002,43(5): 733-741
[181] Y.B.Gui,R.Z.Wang,W.Wang,J.Y.Wu,Y.X.Xu Performance modeling and testing on a
heat-regenerative adsorptive reversible heat pump. Applied Thermal Engineering,
2002,22:309-320.
[182] J.Y.Wu,R.Z.Wang,Y.X.Xu. Influence of adsorption and desorption capacity on operating
process for adsorption heat pump. Applied Thermal Engineering, 2002,22:471-476.
[183] Y.J. Dai, R.Z. Wang, Y.X. Xu. Study of a solar powered solid adsorption-desiccant cooling
system used for grain storage. Renewable Energy, 2002, 25: 417-430
[184] R.Z. Wang, M. Li, J.Y. Wu, Y.X. Xu. Research on a combined adsorption heating and
cooling system. Applied Thermal Engineering,2002, 22(6): 603-617
[185] X.J. Zhang, R.Z. Wang. Design and performance simulation of a new solar continuous solid
adsorption refrigeration and heating hybrid system. Renewable Energy, 2002, 27(3):
401-405.
67
[186] S. Jiangzhou, R.Z. Wang, Y.Z. Lu, Y.X. Xu, J.Y. Wu. Experimental investigations on
adsorption air-conditioner used in internal-combustion locomotive driver-cabin, Applied
Thermal Engineering, 2002, 22(10):1153-1162.
[187] M. Li, R.Z. Wang, Y.X. Xu, J.Y. Wu, A.O. Dieng. Experimental study on dynamic
performance analysis of a flat-plate solar solid-adsorption refrigeration for ice maker.
Renewable Energy, 2002,27(2): 211-221.
[188] M. Li, R.Z. Wang. A study of the effects of collector and environment parameters on the
performance of a solar powered solid adsorption refrigerator. Renewable Energy,
2002,27(3): 369-382.
[189] Zhang, X.J.; Wang, R.Z. A new combined adsorption-ejector refrigeration and heating
hybrid system powered by solar energy. Applied Thermal Engineering, 2002,22(11):
1245-1258
[190] J.Y. Wu, R.Z. Wang, Y.X. Xu. Dynamic analysis of heat recovery process for a continuous
heat recovery adsorption heat pump. Energy Conversion and Management, 2002, 43(16):
2201-2211
[191] Li, M.; Wang, R.Z.; Luo, H.L.; Wang, L.L.; Huang, H.B. Experiments of a solar flat plate
hybrid system with heating and cooling . Applied Thermal Engineering , 2002, 22(13):
1445-1454
[192] Y.J. Dai, R.Z. Wang, L. Ni .Experimental investigation on a thermoelectric refrigerator
driven by solar cells, Renewable Energy, 2003,28(6): 949-959
[193] R.Z. Wang, J. Y. Wu, Y. X. Xu, W. Wang. Performance researches and improvements on
heat regenerative adsorption refrigerator and heat pump. Energy Conversion and
Management, 2001, 42(2):233-249.
[194] P. Zhang, M. Murakami, R.Z. Wang Transient measurement of temperature oscillation
during noisy film boiling in superfluid helium II, Science in China, series E, 2001， 44(1)：
27-32.
[195] R. Z. Wang. Adsorption refrigeration in Shanghai Jiao Tong University, Renewable and
Sustainable Energy Review, 2001, 5(1)：1-37
[196] T.F. Qu, R.Z. Wang, W. Wang. “Study on heat and mass recovery in adsorption refrigeration
cycles”. Applied Thermal Engineering, 2001,21(4):439-452
[197] Dai, Y.J.; Wang, R.Z.; Zhang, H.F. Parameter analysis to improve rotary desiccant
dehumidification using a mathematical model. International Journal of Thermal Sciences ,
2001, 40( 4), 400-408
[198] Y. J. Dai, R. Z. Wang, H. F. Zhang, Use of liquid desiccant cooling to improve the
performance of vapor compression air conditioning, Applied Thermal Engineering, 2001,
21(12)：1185-1202
[199] A.O. Dieng, R.Z. Wang . Literature review on solar adsorption technologies for ice-making
and air-conditioning purposes and recent developments in solar technology. Renewable and
Sustainable Energy Reviews, 2001, 5(4): 313-342.
[200] P. Zhang, M. Murakami, R. Z. Wang. An experimental investigation of temperature and
pressue oscillation in the boiling of liquid helium. Experimental Heat Transfer, (2001),
V14(4) 313
[201] R.Z. Wang. Performance improvement of adsorption cooling by heat and mass recovery
operation. International Journal of Refrigeration, 2001, 24(7): 602-611.
[202] Y.B. Gui, R.Z. Wang. Practical three-heat-reservoir model on heat-regenerative adsorption
air-conditioning system. Applied Thermal Engineering, 2001, 21(16):1643-1656 .
68
[203] P. Zhang, M. Murakami, R. Z. Wang. Study of liquid column oscillation and vapor bubble
oscillation resulting from film boiling in He II. Journal of Physics D: Applied Physics,
(2001) V34(22) 3296
[204] P. Zhang, M. Murakami, R. Z. Wang. Oscillatory phenomena related to noisy film boiling
in superfluid helium II. Physics Letters A, 2000, 264:492-496.
[205] R.Z. Wang, M. Li, Y.X. Xu, J. Y. Wu. An energy efficient hybrid system of solar powered
water heater and adsorption ice maker. Solar Energy, 2000, 68(2):189-195.
[206] J.Y. Wu, R. Z. Wang, Y.X.Xu. Dynamic simulation and experiments of a heat regenerative
adsorption heat pump. Energy Conversion and Management, 2000, 41:1007-1018.
[207] R.Z. Wang, J. Y. Wu, Y. X. Xu, W. Wang. Performance researches and improvements on
heat regenerative adsorption refrigerator and heat pump. Energy Conversion and
Management, 2000, 42(2):233-249.
[208] P. Zhang, M. Murakami, R.Z. Wang. Transient temperature measurement of noisy film
boiling and silent film boiling in He II, Cryogenics, 2000, 40:241-244.
[209] R. Z. Wang, J. Y. Wu, and Y. X. Xu. “A Continuous Heat Regenerative Adsorption
Refrigerator Using Spiral Plate Heat Exchanger as Adsorbers: Improvements”, ASME
Journal of Solar Energy Engineering, 1999，120(1):14-19.
[210] R.Z. Wang, Q. B. Wang. “Adsorption mechanism and improvement of adsorption equation
for adsorption refrigeration pairs”. International Journal of Energy Research, 1999.
23(10):887-898.
[211] P. Zhang, M. Murakami, R.Z. Wang, H. Inaba. "Study of film boiling in He II by pressure
and temperature oscillation measurements". Cryogenics, 1999, 39(7): 609-615.
[212] R. Z. Wang, P. Zhang, 1998, “Pressure effect on the heat transfer in bath of superfluid
helium”, Cryogenics, 38(7):701-706.
[213] R. Z. Wang, H. Kobayashi, 1998, “Two step phase transition model of heat transfer in bath
of subcooled superfluid helium”, Cryogenics, 38(10):1035-1038.
[214] R.Z.Wang,Y.X. Xu, J.Y.Wu,W.Wang,1998," Experiments on heat regenerative adsorption
refrigerator and heat pump ", International Journal of Energy Research. 22(10):935-941.
[215] Wang W. ,Wang, R.Z.,Xu Y.X. , Wu J.Y. and Gui Y.B. 1998 "Investigation on
Adsorption Refrigeration with Single Adsorbent bed", International Journal of Energy
Research. 22(13):1157-1163
[216] R.Z. Wang, J.Y. Wu, Y. X. Xu,Y. Teng, W. Shi, 1998，"Experiment on a continuous heat
regenerative adsorption refrigerator using spiral plate heat exchanger as adsorbers", Applied
Thermal Engineering ，18(1-2):13-23.
[217] R.Z. Wang, J.P. Jia, Y.H. Zhu, Y. Teng, J.Y. Wu, J. Cheng, Q. B. Wang, 1997, "Study on a
new solid adsorption refrigeration pair:Active carbon fiber-methanol", ASME Journal of
Solar Energy Engineering, 119(3):214-218.
[218] Y. Teng, R. Z. Wang, and J. Y. Wu. 1997，“Study of the fundamentals of adsorption
systems”, Applied Thermal Engineering, 17(4):327-338.
[219] WANG Ruzhu, Wu Jingyi, 1996,"Specific heat and thermal conductivity of a single
crystal-like Bi2Sr2CaCu2O8+x", Advances in Cryogenic Engineering, Vol.42.535-541.
[220] R. WANG, P. Zhang, 1996, "Transient heat transfer from thin wires to a bath of sub-cooled
superfluid helium", Cryogenics 36(1):1-6
[221] WANG Ruzhu, 1996,"Special physical problems related to heat transfer in
bath of subcooled superfluid helium", Advances in Cryogenic Engineering, Vol.41：
69
233-240.
[222] R. WANG, 1995, "Criterion for quantum turbulence onset after rectangular heat
pulse in superfluid helium", Cryogenics 35(12):883-886
[223] WANG Ruzhu, 1995，"Measurement on the steady state heat transfer in the
bath of subcooled superfluid helium", J. Phys. D: Appl. Phys. 28(1):25-30
[224] WANG Ruzhu, 1994，"Peak and recovery heat flux densities in bath of
subcooled superfluid helium", Cryogenics, 34(12):983-990
[225] WANG Ruzhu，Xu Lie, U. Ruppert, T. Gradt, H. Walter, H. Streuber, Z. Szucs, G.
Klipping, 1990, "A small cryostat for subcooled superfluid helium: design and
tests", Cryogenics Vol.30 / suppl. 374-377.
[226] WANG Ruzhu, T. Gradt, U. Ruppert, XU Lie, H. D. Denner, G. Klipping, 1990, "Film
boiling onset time in subcooled superfluid helium: the influences of bath temperature
and pressure", Cryogenics Vol. 30/suppl. 360-364

教学工作 1、 课程名称：可再生能源高效转化与利用
授课对象：本科生-一年级新生
学时数： 36
学分： 2
2、 课程名称：新能源系统
授课对象：本硕博贯通课程
学时数： 36
学分： 2

2011-2012学年
1. 课程名称：《可再生能源高效转化与利用》， 授课对象：本科生-一年级新生， 学时数：36，30人，学分：2
2. 课程名称：《制冷空调学科前沿》， 授课对象：本科生四年级， 学时数：36，84人，学分：2
3. 课程名称：《新能源技术》，授课对象：硕士生， 学时数：36， 50人，学分：2
4. 课程名称：《学科前沿》， 授课对象：硕士生， 学时数：36， 36人， 学分：2
5. 课程名称：《制冷与低温工程学科前沿》， 授课对象：博士生，学时数：36， 8人， 学分：2
指导毕业论文： 每年2-3人

软件版权登记及专利 1． 王如竹、李明、吴静怡、许煜雄. 太阳能热水器冰箱复合机, 中国发明专利,专利号ZL 97 1 06781.3, 授权公告日：2003年6月11日
2． 王如竹、姜周曙、许煜雄、卢永庄、吴静怡、葛廷桂、王正根。内燃机车司机室吸附式空调器，中国发明专利，专利号ZL00 1 27965.3 授权公告日：2003年1月15日
3． 王如竹、旷玉辉、吴静怡、许煜雄。直膨式太阳能热泵热水器，中国发明专利, 专利号：ZL01 1 26634.1 授权公告日：2004年10月22日
4． 王如竹、范宏武、吴静怡、许煜雄、刘业凤。吸附式空气取水器，中国发明专利, 专利号：ZL 01 1 13490.9 授权公告日：2003年12月17日
5． 王如竹、范宏武、吴静怡、许煜雄、刘业凤。太阳能吸附式空气取水装置， 中国发明专利, 专利 号：ZL 01 1 13489.5 授权公告日：2003年12月17日
6． 夏再忠，王如竹，吴静怡，王丽伟. 复合交变热管吸附器. 中国发明专利,专利申请号：1.3 授权公告日：2006年2月8日
7． 王如竹;李玉国;黄新华;郑晓红;吴静怡. 可移动式智能型局部空调回风及杀菌装置, 中国发明专利，申请号: **.0 授权公告日：2006年2月8日
8． 王如竹;晋欣桥;谷波;陈亚珠等。中央空调空气多重净化消毒系统测试平台，中国发明专利，申请号: **.9 授权公告日：2006年2月8日
9． 王如竹, 黄兴华, 孔祥强, 吴静怡. 基于固体吸附制冷机的微型冷热电三联供系统，中国发明专利，ZL1.9. 授权公告日：2006年2月8日。
10． 王如竹;旷玉辉;许煜雄;吴静怡。直膨式太阳能热泵空调及热水系统。中国发明专利，ZL**.9 授权公告日：2006年1月4日
11． 李金平，郭开华，王如竹，梁德清。制冷剂气体水合物静态快速生成方法。中国发明专利，ZL4.1 授权公告日：2006年2月8日
12．王如竹、翟晓强、代彦军、吴静怡、许煜雄、马强。基于固体吸附制冷机的太阳能复合能量系统。中国发明专利, 专利 号：ZL 2005 1 **.4 授权公告日：2007年5月2日
13．王如竹、王树刚、吴静怡、王丽伟、许煜雄、伍佳元、卢朝安、项详勇。船用余热驱动物理吸附式制冰机。中国发明专利, 专利 号：ZL 03 1 51046.9 授权公告日：2006年2月15日
14．夏再忠，王如竹，吴静怡，王丽伟. 余热驱动的复合交变热管发生器. 中国发明专利,专利号：ZL 2004 1 **.3 授权公告日：2007年2月14日
15．夏再忠，王如竹，吴静怡，王德昌. 基于分离热管的吸附制冷机. 中国发明专利,专利号：ZL 2004 1 **.0 授权公告日：2006年6月14日
16．王如竹，吴静怡，夏再忠，孔繁琳. 基于分离热管的吸附制冷机. 中国发明专利,专利号：ZL 2004 1 **.0 授权公告日：2006年6月14日
17．陆紫生、王如竹、王丽伟、陈传涓。采用复合吸附剂的热管回热型发生器。中国发明专利,专利号：ZL 2005 1 **.8 授权公告日：2007年2月7日
18． 王如竹、吴静怡、孔繁琳。吸附式空调保暖服。中国发明专利,专利号：ZL 2004 1 **.5 授权公告日：2006年3月22日

学术兼职 2011-2019 国际制冷学会制冷设备委员会副主席；
2012-2021 中国制冷学会副理事长、科普委员会主任；
2008-2017 中国太阳能学会常务理事；
2008-2012 中国制冷学会常务理事；
2009-2019 中国工程热物理学会常务理事；
2006-2011 上海市制冷学会理事长；
2011-2019 上海市科协常委；
2007-2018 教育部热能与动力工程教学指导委员会副主任；
2011- Energy执行主编； 2013- Energy Deputy edity-in-chief
2007- Solar Energy 副编辑Associate editor；
2011- Heat Transfer Research 副编辑Associate editor；
2008-2019 太阳能学报副主编；
2008- 制冷学报副主编；
2011- 制冷技术主编
2014- International Journal of Refrigeration中国及远东地区主编；
2009- Applied Thermal Engineering编委；
2008- Energy Conversion and Management编委；
2010-2015 Sustainable Cities and Societies编委
2012-2015 Progress in Energy and Combustion Science 编委
2012- Heat Transfer -Asia Research 编委
也是科学通报、工程热物理学报、化工学报、上海交通大学学报、上海理工大学学报等期刊的编委。

荣誉奖励 1．1993年上海市青年科技启明星
2．1995年教育部跨世纪人才
3．1996年上海市教委曙光计划
4．1996年霍英东优秀青年教师基金获得者
5．1998年“第六届中国青年科技奖”
6．1998年被评为上海市十佳“优秀青年科技启明星”
7．2000年教育部首届优秀青年教师奖
8．2000年教育部****奖励计划****
9．2001年上海市优秀青年科技启明星群体
10．2002年度获得国家****科学基金
11．2002年上海市曙光杰出人才
12．2004年上海市青年科技英才
13．2006年新世纪百千****才工程国家级人选
14. 2007年国家级教学名师
15. 2009年全国模范教师
16. 2010年全国优秀科技工作者
17. 2011年度上海市首届教书育人楷模（全市10人）
18. 2011年度中国科教文卫体工会“全国教育系统职业道德建设标兵
19. 2011年度上海市第十二届科技精英提名奖；
20. 2011年度教育部创新团队（制冷空调系统与高效能源利用）负责人
21. 2012年度上海市优秀共产党员
22. 2013年度全国五一劳动奖章
23. 2014年度科技部重点领域创新团队负责人
24. 2015年国家自然科学基金委创新群体负责人
25. 2015年 全国先进工作者
26. 2016年 “****”领军人才
国际学术奖励：
2013年英国制冷学会颁发的J&E Hall Gold Medal, (制冷大奖，全球第37人，首位华人）；
2017年亚洲制冷学术奖励Asia Academic Award of Refrigeration(中国首位）；
2018年日本传热学会颁发的Nukiyama Memorial Award (热科学大奖，全球第4人，中国首位）。
2019年国际制冷学会颁发的IIR-Gustav Lorentzen Medal(国际制冷最高奖，全球第5人，首位华人）。
教学奖励：
1. 1996年霍英东教育基金会青年教师奖教学类三等奖
2. 2002年度全国优秀教师宝钢教育奖特等奖
3. 2005年度国家精品课程“制冷与低温原理”， 王如竹等
4. 1998年上海市教学成果一等奖 “抓学科建设，借科研东风，培养制冷专业跨世纪人才”，第二获奖人
5. 2002年所直接指导的张鹏博士论文“超流氦膜沸腾物理机制的研究”获得全国优秀博士学位论文
6. 2008年所直接指导的王丽伟博士论文“新型复合吸附剂的吸附特性与机理及其在高效热管型余热制冷中的应用”获得全国优秀博士学位论文
7. 2008年以“创新型、国际化、研究性”教学为理念，培养中国制冷空调业创新人才 获得上海市教学成果一等奖。（第1获奖人）
8. 2009年以“创新型、国际化、研究性”教学为理念，培养中国制冷业创新人才 获得国家级教学成果二等奖。（第1获奖人）
9. 2010年所指导的齐守良博士论文“ 微通道中液氮流动和换热特性研究 ”获得全国优秀博士学位论文提名奖；
10.2012年所指导的李廷贤博士论文“ 新型多效双重热化学吸附制冷循环研究 ”获得全国优秀博士学位论文提名奖；
11.2013年所指导的葛天舒博士论文“ 转轮式两级除湿空调理论与实验研究 ”获得全国优秀博士学位论文提名奖；
12.2016年所指导的郑旭博士论文“小温差再生的干燥剂的优选及其在除湿换热器中的应用”获得首届上海交通大学优秀博士学位论文奖励。
13.2014年上海市教学成果二等奖，可再生能源新生研讨课的创新与实践，｛王如竹、葛天舒、李勇｝
14.2014年“强化节能减排意识，提升创新实践能力，创建与推进全国大学生节能减排竞赛”国家级教学成果二等奖。（第7获奖人）


科研奖励：
1．1996年度国家教委科技进步二等奖（甲类）：“过冷态超流氦中的稳态与非稳态传热研究”（王如竹，张鹏）获奖证书号：96-099；
2。1998年度上海市科技进步三等奖(基础类)：“超流氦传热中的几个特殊物理问题” (王如竹，张鹏) 获奖证书号：983066
3．1999年上海市科技进步三等奖(基础类)：“固体吸附式制冷循环机理及其实验研究”(王如竹，吴静怡，许煜雄) 获奖证书号：993051
4．2000年上海市科技进步三等奖(发明类)：“太阳能热水器冰箱复合机”(王如竹，李明，许煜雄，吴静怡) 获奖证书号：003027
5．2000年云南省科技进步二等奖(发明类)：“太阳能固体吸附式制冷循环综合研究”(李明，王如竹，许煜雄，吴静怡)，获奖证书号：2000IB053-2-R02
6.2003年教育部提名国家自然科学二等奖: “吸附式制冷的理论与实验研究” (王如竹，吴静怡，代彦军，许煜雄，李明，姜周曙，王文等) 获奖证书号：2003-067
7．2004年上海市科技进步二等奖(发明类)：“中央空调系统中空气清洁灭病毒病菌装置研究”(徐学敏，王如竹，陈亚珠，上官文峰，赵立平，谷波，晋欣桥，白景峰，郑晓红，胡文彬) 获奖证书号：－2－02
8．2005年上海市科技进步二等奖(发明类)：“高效太阳能、空气源热泵热水系统”(王如竹，吴静怡，许煜雄等) 获奖证书号：-2-01
9．2005年度全国绿色建筑创新奖一等奖“上海生态建筑示范楼”（王如竹等第6完成人）
10.“上海生态建筑示范楼”获2005年全国十大建设科技成就奖 (上海市建筑科学研究院有限公司、上海交通大学等) 王如竹为上海交通大学第一完成人。
11．2005年云南省科学技术奖（自然科学类）二等奖。“基于太阳能驱动的吸附制冷装置理论与实验研究”（李明，王如竹，夏朝凤，施锋，王六玲,蔡武德）获奖证书号2005IA227-2-R02 授奖日期：2006年3月1日。
12．2006年教育部科技进步（科技进步类）一等奖。“再生能源建筑一体化技术与系统” （王如竹,代彦军,吴静怡,翟晓强,许煜雄,夏再忠,孙云康）获奖证书号2006-164
13．2006年上海市科技进步一等奖“生态建筑关键技术研究与系统集成” 上海市建筑科学研究院（集团）有限公司,上海交通大学,上海理工大学,上海电力学院,上海植物园汪　维　 韩继红　 何孝磊　王如竹　 陆善后　 胡永红　张道方　 邱江平　 杨金焕　徐　强　 朱伟峰　 安　宇　李德荣　 何晓燕　 代彦军
14. 2008年上海市自然科学一等奖。 “吸附式制冷机理与传热传质特性及循环理论研究”（王如竹 ，王丽伟，吴静怡，代彦军，夏再忠）
15. 2008第三届中国制冷学会科技进步发明三等奖。“基于分离热管的吸附制冷机” （王如竹 ，夏再忠，吴静怡，朱宏清）
16. 2008中国国际工业博览会银奖， “建筑一体化太阳能供热、空调复合能量系统”
17. 2010年国家发明二等奖。“太阳能空调与高效供热装置与应用”（王如竹、代彦军、吴静怡、夏再忠、翟晓强、许煜雄）
18. 2011年教育部自然科学二等奖。低温流体传热的基础热物理问题研究（张鹏,王如竹,齐守良,付鑫,沈飚）
19. 2014年国家自然科学奖二等奖 “吸附式制冷的吸附机理、循环构建及热设计理论”（王如竹、王丽伟、吴静怡、代彦军、夏再忠）
20. 2016年上海市科技进步一等奖“航天器热环境模拟试验系统关键技术及核心装备”（吴静怡、王如竹、黄永华、许煜雄、蔡爱峰、杨光、徐烈、李晓慈、陆紫生）
21. 2019年教育部科技进步一等奖 “空气源热泵高效供热系统与应用”（王如竹, 骆名文, 胡斌, 翟晓强, 张光鹏, 吴静怡, 黄永伟, 马光柏, 陈文强, 代彦军, 黄达, 杨国忠, 孙岩）