Professor Wang Zhengwei is the head of Fluid Machinery and Engineering Research Team in Tsinghua University, a tenured Professor, a Ph.D. supervisor. He is also a member of IAHR hydraulic Machinery and Systems’ Academic Committee and the chairman of the Asian division, a vice director of Hydro Turbine Professional Committee in Chinese Society of Power Engineering, a committee member of China Renewable Energy Society and the vice director of Ocean Energy professional committee, a vice director of Metal Structure Mechanic Professional Committee in Tibet Society for Hydropower Engineering, a member of National Technical Committee for Hydraulic Turbine Standardization, of Wind and Tidal Power Generation Professional Committee in Chinese Society for Electrical Engineering, of China Dredging Association, of academic committee of State Key Laboratory of Hydro-Power Equipment, and a theme editor of some international academic journals such as Renewable Energy.
Prof. Wang has been committed to the research on theoretical models, numerical methods and performance analysis of multiphase flow and multi-field coupling characteristics in fluid machinery and systems. He has built a high-precision computational analysis, evaluation, and optimization platform for transient dynamic characteristics, which has found application to multi-field coupled dynamic characterisitcs analysis, evaluation and safe operation improvement for nearly one hundred large and medium-sized hydropower stations and pumped storage power stations such as the Three Gorges Power Station, Wanjiazhai Power Station, Xiaolangdi Power Station, Shuikou Power Station, Datengxia Power Station, Baihetan Power Station, Xiluodu Hydropower Plant, Guangzhou Pumped Storage, Yangjiang Pumped Storage and Fengning Variable Speed Pumped Storage. The operational zone division based on theoretical calculations and empirical measurements of units in Shuikou Power Station, Wanjiazhai Power Station, Xiaolangdi Power Station have long been safeguarding the safe and efficient operation of the units. The analytical prediction evaluation of transient dynamic power characteristics of the Yangjiang Pumped Storage Power Station’s turbine, has become a model for the prediction and improvement of safe and stable operation of domestic high-head, large-capacity prototype energy storage units. Prof. Wang has also developed more than 80 sets of water turbine/pump impellers, which operate safely, efficiently, and stably in many water and hydropower engineering projects. Among them, the world-leading “National Advanced Heavy Equipment” bidirectional water turbines, pumps, and tidal units operating under complex conditions have been running safely and stably in Jiangxia Tidal Experimental Power Station for a long term. He developed the “first set” of Mujatai new type anti-wear impeller, which has shown slight and even wear during years of operation under high water head and sediment-laden conditions. The self-developed high-efficiency abrasion-resistant 18,000 cubic meters per hour dredge pump is the core component of the Asian largest bucket-wheel dredger, one of “National Advanced heavy Equipment”. He has also contributed to strengthening international academic exchanges and cooperation. The cooperation with Toshiba has highly promoted the accuracy of computational fluid-structure coupling theory. the cooperation with ANDRITZ has enhanced the wider load safety and stable operation performance of the units; the cooperation with Catalonia Polytechnic University, Lausanne Polytechnic University and other universities has supported the cultivation of talents with international perspectives. He has organized several academic exchange meetings of the IAHR Asia-Pacific Division.
Prof. Wang has presided over one national science and technology major project on smart grid, two national 863 projects, one key project and four general projects supported by National Natural Science Foundation, one special research project of the State Oceanic Administration, and three projects of the Ministry of Industry and Information Technology’s Green Design Platform. He has also participated in three national programs for science and technology development. and has led four international cooperation projects, and been in charge of over 200 horizontal scientific research projects, accumulating rich experience in evaluation and optimization of theoretical calculation analysis.
Prof. Wang has authored Fundamentals of Fluid Machinery ranked as “Eleventh Five-Year” national planed higher education textbook, lexicon of Hydromachines on multilanguage (Chinese, English, French, German, Russian, Spanish and Japanese), and Hydraulic Machinery Flow-induced Vibration and Vibration Analysis Technology. He also teaches the undergraduate courses including “Fundamentals of Fluid Machinery”, “Elasticity Theory and Finite Element”, “Pumps and Fans” and “Multi-field Coupling of Fluid Machinery” as well as postgraduate courses such as “Multi-field Coupling of Fluid Machinery and Systems”. So far, he has contributed to cultivating more than 20 post-doctors and over 100 doctors and masters, who are becoming important talents in fluid machinery and engineering fields.
Prof. Wang has obtained 23 patents and registered 6 software copyrights. He has received more than 40 awards, including 9 first prizes and 12 second prizes at the provincial or ministerial level. He has published over 480 research papers, including 220 papers indexed in WOS, over 200 indexed in SCI and over 320 papers indexed in EI.
Sept. 1988 ~ Jul. 1992 B. S. Degree & M.S. Degree in Fluid Machinery and Engineering, Huazhong University of Science and Technology.
Sept. 1992 ~ Sept. 1996 Ph.D. in Fluid Machinery and Engineering the Department of Hydraulic and Hydroelectric Engineering in Tsinghua University, followed by employment at the university.
Jan. 1998 ~ May 1999 Postdoctoral research in Fluid Machinery and Engineering in the Technical University of Catalonia, Spain.
Aug.1988 - Aug.1989, internship at Institute of Hydro Turbine, Wuhan Steam Turbine Power Plant.
Oct. 1996 - Jun. 2007, lecturer and associate professor in Institute of Fluid Machinery and Fluid Engineering, Department of Thermal Engineering, Tsinghua University (Institute of Fluid Machinery and Fluid Engineering was adjusted into Department of Thermal Engineering from Department of Hydropower Engineering in 1999).
Jul.2007 - now, Professor, Doctoral tutor, Research team leader and Director of Institute of Fluid Machinery and Fluid Engineering, Tsinghua University.
Aug. 1988 ~ Aug. 1989 Internship in the Turbine Research Institute, Wuhan Steam Turbine Generator Factory.
Oct. 1996 ~ Aug. 1999 Lecturer at the Fluid Machinery and Engineering Research Institute, Department of Hydraulic and Hydroelectric Engineering, Tsinghua University.
Sept. 1999 ~ Jun. 2007 Lecturer and Associate Professor at the Fluid Machinery and Engineering Research Institute, Department of Thermal Engineering, Tsinghua University.
From 2007 onwards leader of the Fluid Machinery and Engineering Research Institute, Professor, Doctoral Supervisor, and Head of the research team at the Department of Energy and Power Engineering, Tsinghua University.
[1] A member of IAHR hydraulic Machinery and Systems’ Academic Committee and the chairman of the Asian Working Group (Jan 2014— present)
[2] A vice director of Hydro Turbine Professional Committee in Chinese Society of Power Engineering (Jan.2002—present)
[3] A member of academic committee of State Key Laboratory of Hydro-Power Equipment (Jan. 2023—present)
[4] A member of National Technical Committee for Hydraulic Turbine Standardization (Jan.1999—present)
[5] A vice director of Metal Structure Mechanic Professional Committee in Tibet Society for Hydropower Engineering (Nov. 30, 2021--present)
[7] A member of Wind and Tidal Power Generation Professional Committee in Chinese Society for Electrical Engineering (April 1st, 2019--present)
[9] A vice director of Ocean Energy professional committee of China Renewable Energy Society (Sept. 2017—present)
[10] A deputy director of the Basin Smart Hydropower and Equipment Professional Committee, Yangtze River Technical and Economic Society (Dec.2023--present)
[11] A theme editor of several international professional journals such as Renewable Energy
Multiphase Transient Flow Theory and Flow Control in Fluid Machinery and Systems.
Multifield Coupling Basic Theory and Engineering Applications in Fluid Machinery and Systems.
Informatization, Intelligentization, and Greenization of Fluid Machinery and Engineering.
[1] 1997.09-1999.03, “Design of Turbine Hydraulic Model for Power Plant Capacity Expansion and Renovation”, Hangzhou Power Equipment Factory Electromechanical Engineering Company.
[2] 1998.04-1999.03, “Development of machining program for expanding the blades of a hydraulic turbine into a flat plane”, Jinhua Hydraulic Turbine Plant.
[3] 1998.09-1999.12, “Optimization design of the 60APH mixed-flow pump impeller”, Changsha Pump Factory in Changsha Tongda (Group)
[4] 1998.09-1999.12, “Modification Design of Runners of Tong shanyuan Hydropower Plant in Quzhou City, Zhejiang Province”, Hangzhou Hang Fa Corporation.
[5] 1998.11-1999.12, “Optimization Design of Improved Cavitation Runners for Tianxing Hydropower Station”, Hydraulic Machinery Factory in Hangzhou Hangfa Corporation.
[6] 1999.06-2001.06, “Redesign of the wheel for HL100-WJ-65 turbine at Dajiangdong Power Station in Pingjiang County, Hunan Province”, Hydraulic Machinery Factory in Hangzhou Hangfa Corporation.
[7] 1999.06-2002.06, “Modification Design of the Foziling H263-2T-134 Turbine”, Hydraulic Machinery Factory in Hangzhou Hangfa Corporation.
[8] 1999.08-2001.08, “Optimization Design of Guide Vanes and Impellers of Submersible Axial Flow Pumps”, China Institute of Water Resources and Hydropower Research Factory.
[9] 1999.09-2001.09, “Basic Research on Fluid Machinery’s Stable Operation and Predictive Maintenance ”, Funded by Tsinghua University Key Talent Fund.
[10] 1999.09-2002.09, “Flow Field Analysis and Optimization Design of H-type Pump”, The Eleventh Institute of China Aerospace Science and Technology Group.
[11] 1999.11-2002.11, “Feasibility Study on Technical Transformation of Hydro-Generator Units in Gaosha Hydropower Co., Ltd”, Gaosha Hydropower Co., Ltd.
[12] 1999.11-2001.05, “Flow Analysis and RSI Analysis of Kaplan turbines”, Beijing IWHR Technology Co.,Ltd.
[13] 2000.01-2003.05, “Calculations of Inlet and outlet Flow Channel and Pump Installation Height of Taipu River Pumping Station”, Taihu Lake Basin Administration Bureau of Ministry - Water Resources.
[14] 2000.03-2001.03, “Flow Analysis and Optimization Design of Tail Water Pipes”, Beijing Zhongke Electric Technology Development Company.
[15] 2000.06-2001.03, “Study on the Stable Operation of the Turbine Units of the Three Gorges Right Bank Hydropower Station on the Yangtze River”, China Yangtze Three Gorges Project Development Corporation.
[16] 2000.07-2000.12, “Optimization Design of Blade Modification for Unit 3 in Fuchunjiang Hydropower Plant”, Fuchunjiang Hydroelectric Power Plant in East China Power Administration Bureau.
[17] 2000.08-2001.04, “Optimal Calculation and Analysis of Cavitation Performances of Water Mouth Runners in Hydropower Station”, Fujian Electric Power Test Institute.
[18] 2000.09-2000.12, “Numerical Simulation of Tailwater Fluctuation on Stable Operation of Units in Shuibuya hydropower Station”, Qingjiang Shuibuya Project Construction Company.
[19] 2000.09-2001.12, “Study on Stable Operation Characteristics of High Pressure Fans”, Tsinghua University 985 Project.
[20] 2000.10-2001.05, “Analysis on Hydraulic Characteristics of Turbine Unit 3 in Fuchunjiang Hydropower Plant”, Fuchunjiang Hydropower Plant in East China Electric Power Group.
[21] 2001.01-2001.10, “Analysis and Research on the Inner Air Duct Flow of the Sangpu NY13D Heating Fan”, Beijing Sangpu Electrical Appliance Co., Ltd.
[22] 2001.03-2001.10, “Analysis and Research on Hydraulic Instability Characteristics of Impellers in Taipu River Pumping Station”, Taipu River Pumping Station Engineering Construction Headquarters.
[23] 2001.04-2003.04, “Study on Vibration Characteristics Induced by Flow of Hydraulic Machinery”, Ministry of Education Research Start-up Fund for Overseas Returnees.
[24] 2001.07-2002.07, “Study on Flow Analysis and Optimization Design of Internal Flow Channel of Water Pumps”, Shijiazhuang Pump Group Co., Ltd.
[25] 2001.08-2001.12, “The Actual Measurement and Analysis of the Internal Flow of the Model Unit of Taipu River Pumping Station and the Test of the Small Flap Gate of the Outlet Passage Flat Gate”, Engineering Construction Headquarters in Taipu River Pumping Station.
[26] 2001.12-2002.08, “Research on Stable and High-efficient Operation Characteristics of Turbine UnitS in Zhuzhou Hydropower Co., Ltd.”, Fujian Sanming Zhuzhou Hydropower Co., Ltd.
[27] 2002.04-2002.12, “Analysis and Research on Hydraulic Dynamic Characteristics of Ouyanghai Hydropower Station in Hunan Province”, Ouyanghai Irrigation District Water Conservancy and Hydropower Engineering Management Bureau of Hunan Province.
[28] 2002.05-2002.12, “Research on Stable Operation of Turbine Units in Yellow River Wanjiazhai Water Conservancy Project”, Yellow River Wanjiazhai Water Control Project Co., Ltd.
[29] 2002.09-2002.11, “Impact Analysis Project of AGC Operation on Hydropower Units”, Staff Technical Association in Fujian Shuikou Hydropower Plant.
[30] 2003.02-2004.02, “Analysis of Unstable Flow Characteristics of Hydraulic Turbines in Lijiaxia Hydropower Station”, Dongfang Electric Machinery Co., Ltd.
[31] 2003.04-2003.12, “Study on Flow Analysis and Optimization Design of the HL280-WJ-50 Runner”, Guangdong Shaoguan Zhongli Power Equipment Co., Ltd.
[32] 2003.06-2005.06, “Different Transport Mechanisms of Sediment and the Inherent Errors of Traditional Diffusion Equation”, Tsinghua University Foundation for Basic Research.
[33] 2003.07-2004.12, “Analysis and Research on Optimization Design of the Mixing Tank and Agitator”, Tianjin Petrochemical General Machinery Research Institute.
[34] 2003.07-2004.02, “Study on Black Start and Condition Maintenance Scheme of Wanjiazhai Water Control Project on Yellow River”, Yellow River Wanjiazhai Water Control Project Co., Ltd.
[35] 2003.07-2004.12, “Research on Similarity Analysis of Water Pump Devices”, Taipu River Pumping Station Engineering Construction Headquarters.
[36] 2003.08-2004.02, “Simulation Analysis of Flow Channel Characteristics of Mudu Port Pumping Station”, Shanghai Institute of Survey and Design.
[37] 2003.09-2003.12, “Experimental Study on the Stability of Wanjiazhai Hydropower Station 4 # Machine After Overhaul”, Yellow River Wanjiazhai Hydro-junction Co., Ltd. Power Station Management Bureau.
[38] 2003.10-2004.06, “Simulation Analysis of Hydraulic Characteristics of Wannianzha Pumping Station Channel in South-to-North Water Diversion Project”, Shandong Provincial Water Conservancy Survey and Design Institute.
[39] 2003.10-2004.06, “Simulation Analysis of Hydraulic Characteristics of Hanzhuang Pumping Station Channel in the East Route of South-to-North Water Diversion Project”, Shandong Institute of Water Conservancy Survey.
[40] 2004.03-2006.12, “Development of 3D Simulation Program for Transient Process of Flow Turbine”, China Hydropower Engineering Consulting Group Co. Ltd.
[41] 2004.03-2004.12, “Study on the Flow Characteristics of the DZQ200 Type Deep Submersible Hard Tube Boosting”, Technology Development Department - Shijiazhuang Water Pump Factory.
[42] 2004.04-2004.12, “Software Development for the South-to-North Water Diversion Project’s pump test bench”, Zhongshui North Survey and Design Research Co., Ltd.
[43] 2004.04-2004.12, “Development of the Technical Data Management System of Huanghe Wanjiazhai Hydropower Plant”, Power Station Management Bureau in Huanghe Wanjiazhai Water Control Project Co., Ltd.
[44] 2004.05-2004.12, “Electronic Drawing of Water Machine and Metal Structure Diagrams”, Staff Technical Association - Fujian Shuikou Power Generation Co., Ltd.
[45] 2004.08-2004.09, “Using the Volume Method to Verify the Data Analysis Calculation of the Ultrasonic Flow Measurement Device at the Shentongzui Reservoir GM2 Pump Station”, Shanxi Wanjiazhai Yellow River Diversion Project Corporation Central Laboratory.
[46] 2004.08-2005.02, “Experimental Study on Pump Performances of Pump Simulation Test Benchs”, Zhongshui North Survey and Design Research Co., Ltd.
[47] 2004.08-2004.12, “Analysis of Transition Process of Langyang Hydropower Station”, Guizhou Institute of Water Resources and Hydropower Survey and Design.
[48] 2004.08-2005.06, “CFD Technical Training for Hydraulic Machinery”, Shijiazhuang Pump Group Co., Ltd.
[49] 2004.09-2005.06, “Analysis on Transition Process Characteristics of Ouyanghai Hydropower Station in Hunan Province”, Ouyanghai Irrigation District Water Conservancy and Hydropower Engineering Management Bureau of Hunan Province.
[50] 2004.09-2005.06, “Optimization Design of Flow Channel of the Two-Phase Flow Mud Pump for Jinhangjun 221 vessel”, Tianjin Dredging Company.
[51] 2005.03-2007.03, “Study on Anti-Cavitation and Abrasion Resistance of Flow Passage Components in the Unit”, Yellow River Water Conservancy and Hydropower Development Corporation.
[52] 2005.03-2007.03, “Study on the Economic and Stable Performances of Hydroelectric Generating Units (Absolute Efficiency Test, Rotor Crack Detection and Turbine Characteristic Test)”, Yellow River Water Conservancy and Hydropower Development Corporation.
[53] 2005.04-2006.04, “Dynamic Characteristics Analysis of Key Components of Shuikou Turbines”, Fujian Electric Power Test Institute.
[54] 2005.08-2005.12, “Simulation Assembly and Dynamic Characteristics Analysis of 1000WN Dredge Pumps”, Shijiazhuang Pump Group Co., Ltd.
[55] 2005.08-2006.06, “Analysis of the Influence of Deviating from the Design Condition on the Stability of the Unit”, Fujian Shuikou Power Generation Co., Ltd. Staff Technical Association.
[56] 2005.08-2007.02, “Experimental Development of a New Tidal Power Generation Model Unit in National High-tech R&D Program (863 Program), Longyuan Electric Power Group.
[57] 2006.03-2006.12, “Research on Optimization of Flow Channel Profile of Water Pump Devices in Siyang Pumping Station”, Shanghai Institute of Survey and Design.
[58] 2006.03-2006.09, “Dynamic Characteristics Analysis of Generator Set Frame in Zhouning Hydropower Station”, Fujian Electric Power Adjustment Test Co., Ltd.
[59] 2006.05-2006.12, “Study on Optimization of Flow Channel of the HL820/450a Turbine in Youchou Hydropower Station”, Zhejiang Fuchunjiang Hydropower Equipment Co., Ltd.
[60] 2006.05-2007.05, “Optimization Design and Manufacturing of Dredging Mud Pump Impeller (two kinds of impeller) of Hangfajun 1 #”, Tianjin Dredging Company.
[61] 2006.07-2007.05, “Performance Test and Condition Analysis of Unit1-Unit 7 in Water Port Power Station”, Fujian Shuikou Power Generation Co., Ltd. Staff Technical Association.
[62] 2006.09-2007.06, “Research on Static and Dynamic Characteristics of Bulb Tubular Units in Qingshuitang”, Toshiba Hydropower Equipment Co., Ltd.
[63] 2006.09-2011.09, “Study on Key Technologies Development of Fluid Machinery”, Hangzhou Liyuan Power Generation Equipment Co., Ltd.
[64] 2007.03-2008.06, “Study on Hydraulic Development and Model Test of Turbines in Tidal Power Station”, Dongfang Electric Machinery Co., Ltd.
[65] 2007.04-2007.12, “Optimization Design and Manufacturing of the Impeller of Hangfajun 1 # Dredger Mud Pump”, CCCC-Tianjin Dredging Co., Ltd.
[66] 2007.04-2007.12, “Optimization Design and Manufacturing of 5-Leaf to 3-Leaf of Pump Impeller in in Jinhangjun 215 Cabin”, CCCC-Tianjin Dredging Co., Ltd.
[67] 2007.06-2008.09, “Vibration Swing Detection Device of Ahangelang Hydropower Station in Uzbekistan”, China National Electric Engineering Co., Ltd.
[68] 2007.06-2008.10, “Vibration Swing Detection Device of Anjiran-2 Hydropower Station in Uzbekistan”, China National Electric Engineering Co., Ltd.
[69] 2007.08-2007.12, “Study on Ventilation Cooling System of Chengguan Power Plant”, Fujian Shaxian Chengguan Hydropower Co., Ltd.
[70] 2007.12-2008.05, “Study on the Runner Optimization of the HL (F13) Turbine in Baotian Hydropower Station”, Zhejiang Fuchunjiang Hydropower Equipment Co., Ltd.
[71] 2008.01-2008.01, “Analysis and Optimization of High-efficient and Safe Operation Performance of the SNFH340 screw pump”, Tianjin Pumps & Machinery Group Co., Ltd.
[72] 2008.01-2009.12, “Flow Analysis and Optimization Design of Flow Channel of the HL820-WJ-84”, Zhejiang Jinlun Electromechanic Co., Ltd.
[73] 2008.01-2009.12, “Study on Flow Analysis and Optimization Design of Pelton Turbines”, Zhejiang Jinlun Electromechanic Co., Ltd.
[74] 2008.01-2009.12, “Development of Hydraulic Model for a Large-Scale Hydraulic Machinery and Its Stability Study”, National Key Laboratory of Water and Sediment Science and Water Conservancy and Hydropower, Tsinghua University.
[75] 2008.01-2009.12, “Technical Guidance on Industrial Fluid Energy Recovery Technology”, Nanjing Lanshen Pump Group Co., Ltd.
[76] 2008.01-2009.12, “Development and Stability Study of Hydraulic Models for Large-Scale Hydraulic Machinery”, State Key Laboratory of Hydroscience and Engineering in Tsinghua University.
[77] 2008.03-2009.03, “Analysis of Hydraulic Stability of the TMCG-80M Distilled Water Pump and Dynamic Characteristics of the Structure of the SNF280R43U12.1J Screw Pump”, Tianjin Pumps & Machinery Group Co., Ltd.
[78] 2008.06-2008.12, “Development of Vibration Measurement and Analysis System of Screw Pumps”, Tianjin Pumps & Machinery Group Co., Ltd.
[79] 2008.07-2011.07, “Performance Analysis and Optimization Design of Dredging Jet Pumps”, Ouhua Dredging Co., Ltd.
[80] 2008.08-2009.12, “Optimization Design of Hongshanzui Francis Turbine Runners”, Zhejiang Zhongshui Power Equipment Co., Ltd.
[81] 2008.09-2009.12, “Study on Simulation System of Xin’anjiang Hydro-generator Units”, East China Power Grid Co., Ltd. Xin 'anjiang Hydropower Plant.
[82] 2008.10-2008.12, “Flow Analysis and Flow Channel Optimization Design of Axial-Extension Tubular Turbines in Chester Hydropower Station”, Wuhan Changyuan Hydro-generator Manufacturing Co., Ltd.
[83] 2008.11-2009.06, “Study on Fatigue Life of Rotating Part of Bulb Tubular Units in Huangfeng Power Station”, Toshiba Hydropower (Hangzhou) Co., Ltd.
[84] 2009.01-2011.12, “Study on Three-dimensional Unsteady Flow in the Transition Process of Mixed-Flow Pump-Turbines”, National Natural Science Foundation of China.
[85] 2009.03-2011.03, “Technical Cooperation of Industrial Fluid Energy Recovery Technology”, Nanjing Lanshen Pump Group Co., Ltd.
[86] 2009.03-2011.12, “Study on Fluid-Solid Coupling Dynamic Characteristics of a Pump-Turbine Runner Considering Three-Dimensional Viscous Flow Field”, National Natural Science Foundation of China.
[87] 2009.06-2013.06, “Study on Hydraulic Stability and Runner Dynamic Stress Characteristics of 1000MW Turbine Generator Units”, Harbin Electric Machinery Co., Ltd.
[88] 2009.06-2010.12, “Development of Small Impellers of Mud Pumps for Cutter Suction Ships of Tianniu and Binhai Series”, CCCC-Tianjin Dredging Co., Ltd.
[89] 2009.06-2010.12, “Development of Mud Pump (Including Appendix) Database Information Management System”, CCCC-Tianjin Dredging Co., Ltd.
[90] 2009.06-2010.06, “Experimental Study on Index of YAVUZ Power Station in Turkey”, Zhejiang Dongfang Electromechanical Co., Ltd.
[91] 2009.06-2011.05, “Development of a New Megawatt-class Tidal Power Generation Model Unit and Optimization Design of Prototype Unit Selection”, Ministry of Science and Technology of China.
[92] 2009.07-2009.09, “Analysis of Load Rejection Characteristics in Transition Process of Hydro-Generator Units in VACA Power Station”, Sinohydro Bureau 11 Co., Ltd.
[93] 2009.07-2011.02, “Study on Dynamic Stress Characteristics of Runner of Million Kilowatt Turbine Generator Units”, Dongfang Electric Machinery Co., Ltd.
[94] 2009.09-2010.12, “Development of the New Hydro-generator Unit (Phase I)”, Hangzhou Liyuan Power Generation Equipment Co., Ltd.
[95] 2009.09-2010.12, “Study on the Operating Life of Pumped Storage Units”, Hebei Zhanghewan Energy Storage Power Generation Co., Ltd.
[96] 2009.10-2010.12, “Research on Digital Model of Smoke and Air System”, Southwest Electric Power Design Institute of China Electric Power Engineering Consulting Group.
[97] 2009.10-2010.12, “Study on Air Channel Arrangement of Fan Outlet and Air Channel Noise Control of Fan”, Southwest Electric Power Design Institute of China Electric Power Engineering Consulting Group.
[98] 2009.10-2010.10, “Optimization Design of Runners of the Units 3, 4 and 5 in Jiangxia Tidal Test Power Station”, Wenling Jiangxia Tidal Test Power Station of China Guodian Group.
[99] 2009.12-2010.08, “Study on Three-Dimensional Transition Process Calculation of 75MW Tubular Turbines in Jirau Power Station in Brazil”, Dongfang Electric Group Dongfang Motor Co., Ltd.
[100] 2010.03-2010.12, “Analysis and Optimization of Efficient and Safe Operation Performance of 750 Slurry Pumps”, Jiangxi Naipu Group Co., Ltd.
[101] 2010.03-2010.12, “Operation Performance Test of Impact Turbine Generator Sets in Ma’e River Hydropower Station”, Zhejiang Jinlun Electromechanic Co., Ltd.
[102] 2010.03-2010.07, “Hydraulic Performance Analysis and Optimization of 75SL Slurry Pumps”, Shijiazhuang Development Zone Pump Industry Co., Ltd.
[103] 2010.04-2010.12, “Flow Analysis and Runner Force Characteristics Analysis of ZZA-834-Lj-260 Turbines”, Wuhan Changyuan Hydro-generator Manufacturing Co., Ltd.
[104] 2010.04-2011.06, “863 Tidal Operation Optimization Simulation and Operation Optimization”, China Longyuan Power Group Corporation limited.
[105] 2010.04-2011.06,Technical Development of Mud Pumps and High-pressure Flushing Pump for 15,000m³ and 10,000m³ Self-propelled Hopper Suction Dredgers,Shijiazhuang Qiangda Pump Industry Group Co., Ltd.
[106] 2010.04-2011.06, “Hydraulic Performance Calculation of 45MW Kaplan Turbines in Tajikistan”, Asia Pacific Power Technology (Nepal) Ltd.
[107] 2010.06-2010.12, “Development of the Runners and Channels of Turbines in Mupo Hydropower Station”, Zhejiang Zhongshui Power Equipment Co., Ltd.
[108] 2010.07-2010.11, “Study on Dynamic Balance Test of Yavuz Power Station in Turkey”, Zhejiang Dongfang Group Mechanical and Electrical Engineering Co., Ltd.
[109] 2010.07-2010.11, “Dynamic Characteristics Analysis of Shaft System of Hydro-Generator Units in Zhouning Power Station”, Fujian Electric Power Adjustment Test Co., Ltd.
[110] 2010.07-2012.06, “Calculation and Analysis of Hydraulic Transition Process of Tianchi Pumped Storage Power Station”, Zhongnan Survey and Design Institute of China Hydropower Consulting Group.
[111] 2010.08-2011.08, “Experimental Study on Index of DIM Power Station in Turkey”, Zhejiang Guomao Group Oriental Mechanical and Electrical Engineering Co., Ltd
[112] 2010.08-2011.01, “Research on Flow Channel and Structure Optimization of GZ007-WZ-280 Turbine in Kapuskasing Hydropower Station”, Wuhan Changyuan Hydro-generator Manufacturing Co., Ltd.
[113] 2010.08-2011.02, “Analysis of Dynamic Characteristics of Key Components of GDJG502-WZ-275 and SFW6465-32 / 3450 Turbine Generator Units”, Hunan Lingling Hengyuan Power Generation Equipment Co., Ltd.
[114] 2010.09-2012.09, “Hydraulic Development and Model Test of Namlik1 KaplanTurbine in Thailand”, Chongqing Xin’an Hydropower Equipment Manufacturing Co., Ltd.
[115] 2010.11-2011.12, “Hydraulic and Structural Analysis and Optimization Design of Through-Wheel Mud Pump”, CCCC-Tianjin Dredging Co., Ltd.
[116] 2011.01-2012.12, “Development of the New Hydro-generator Unit (Phase II)”, Hangzhou Liyuan Power Generation Equipment Co., Ltd.
[117] 2011.01-2012.12, “Research on Key Technologies of the New Tidal Power Model Unit Development”, Yangtze Delta Region Research Institute of Tsinghua University in Zhejiang Province.
[118] 2011.05-2012.12, “Optimization Design of the Runners of Chongyang Kaplan Turbine”, Zhejiang Zhongshui Power Equipment Co., Ltd.
[119] 2011.07-2012.06, “Experimental Study on Index of Guzelcay 1 & 2 Power Station in Turkey”, Zhejiang Guomao Group Oriental Mechanical and Electrical Engineering Co., Ltd.
[120] 2011.08-2012.02, “Relative Efficiency Test of Hydro-Generator Units in Lizhuang Hydropower Station, Yaoshan Township, Chun’An County, Zhejiang Province”, Zhejiang Jinlun Electromechanic Co., Ltd.
[121] 2011.09-2016.09, “Development of a New Turbine Flow Channel”, Zhejiang Zhongshui Power Equipment Co., Ltd.
[122] 2012.01-2013.06, “Analysis of Capacity-Increasing Transformation and Optimization Design of Flow Channel of Hydraulic Turbines”, Zhejiang Shunfei Heavy Power Equipment Manufacturing Co., Ltd.
[123] 2012.01-2013.12, “Research and Development of the New Hydro-generator Unit (Phase III)”, Hangzhou Liyuan Power Generation Equipment Co., Ltd.
[124] 2012.01-2012.12, “Performance Prediction Analysis and Flow Channel Optimization Design of Oil Pump Ay400 And Ay2000”, Beijing Changjia Pump Group Co., Ltd.
[125] 2012.01-2013.12, “Numerical Study of Multiphase Flow in Hydraulic Turbine Based on Phase Modulation and Air Supply Conditions”, National Key Laboratory of Water and Sediment Science and Water Conservancy and Hydropower, Tsinghua University.
[126] 2012.04-2014.04, “Development of Fluid Structure Interaction Analysis (Simulation Method)for Turbine Runner Strength”, Toshiba Corporation.
[127] 2012.05-2012.12, “Experimental Study on Index of Himmetli Power Station in Turkey”, Zhejiang Guomao Group Oriental Mechanical and Electrical Engineering Co., Ltd.
[128] 2012.05-2012.12, “Consultation and Calculation of Water Hammer Protection for Water Supply Pumping Stations and Water Supply Pipelines of Xiayang Lake and Lubei Lake”, Shanghai Institute of Survey and Design.
[129] 2012.07-2013.12, “Analysis of Dynamic Characteristics of Shafting of Large Accumulators”, Electric Power Research Institute of Guangdong Power Grid Corporation.
[130] 2012.08-2014.12, “Development of New Bidirectional Tidal Unit for Efficiency Expansion and Transformation of Unit 1 of Jiangxia Tidal Test Power Station”, Wenling Jiangxia Tidal Test Power Station Of China Guodian Group.
[131] 2012.09-2016.12, “Study on the Wet Mode of Pump-Turbine Runner and the Whole Life Model Considering Steady-State and Transient Hydraulic Excitation”, National Natural Science Foundation of China.
[132] 2012.10-2013.06, “Study on Index Test of GOKKAYA Power Station in Turkey”, Zhejiang Guomao Group Oriental Mechanical and Electrical Engineering Co., Ltd.
[133] 2012.10-2013.12, “Calculation Analysis of Hydraulic Transition Process of Water Conveyance System in Minzhi Hydropower Station”, Dongfang Electric Group Dongfang Motor Co., Ltd.
[134] 2013.01-2015.11, “Dynamic Characteristics Analysis of Rotor-Bearing Coupling System of Pumped Storage Unit Considering Nonlinear Oil Film Force”, Ph.D. Programs Foundation by Education Ministry of China.
[135] 2013.05-2013.06, “Rigid Strength Analysis and Optimization of 75 Tons Test Bench Steel Frame of Wille (China) Water Pump System Co., Ltd”, Weile (China) Pump Systems Co., Ltd.
[136] 2013.08-2018.08, “Development of Flow Channel of a New Turbine Based on Flow and Dynamic Characteristics Analysis”, Hunan Hanlong Hydropower Equipment Co., Ltd.
[137] 2013.11-2014.12, “Study on Channel Vortex Simulation and Hydraulic Characteristics of Francis Turbines”, Dongfang Electric Group Dongfang Motor Co., Ltd.
[138] 2013.11-2014.11, “Relative Efficiency Test of Hydroelectric Generating Units of Jabban Hydropower Station in Pakistan”, Zhejiang Jinlun Electromechanic Co., Ltd.
[139] 2014.01-2016.12, “Study on hydrodynamic characteristics and operation stability of diversion type tidal current turbines”, Ph.D. Programs Foundation by Education Ministry of China.
[140] 2014.02-2015.02, “Stability Test and Associated Curve Correction of GOLOVNAYA Power Station in Tajikistan”, Hangzhou Asia-Pacific Power Group Co., Ltd.
[141] 2014.02-2014.12, “Numerical calculation of transient process in extension project of Hua’an Hydropower Station”, Numerical calculation of transient process in extension project of Hua’an Hydropower Station.
[142] 2014.04-2015.12, “of Cracks Analysis of the Runners and the New Runner Design”, Hangzhou Liyuan Power Generation Equipment Co., Ltd.
[143] 2014.06-2016.06, “For Runner Hydraulic and Dynamic Analysis Under Variable Speed of Bi-directional Large Tidal Power Unit”, Toshiba Corporation of Japan
[144] 2014.06-2016.12, “The CFD Software Development of New Runners of HL240 and ZD510 ”, Zhejiang Zhongshui Power Equipment Co., Ltd.
[145] 2014.08-2014.12, “Analysis of Flow Channel of IFP Ultra-Low Head Kaplan Turbines in the United States”, China Changjiang Power Group Co., Ltd.
[146] 2014.11-2015.05, “Analysis of Capacity-increasing Transformation and Optimization Design of Flow Channel for Bailongtan Turbines”, Tianjin Tianfa Heavy Hydropower Equipment Manufacturing Co., Ltd.
[147] 2015.01-2019.12, “Mechanism and Control of Flow Instability of Centrifugal Pumps”, Key Fund Projects of National Natural Science Foundation of China.
[148] 2015.01-2016.01, “Experimental Study on Hydraulic Loss of Filtration Equipment of the Waterworks in Huailai County, Zhangjiakou City”, Huailai Zemin Technology Development Co., Ltd.
[149] 2015.02-2016.12, “Study on Water Column Separation and Cavitation in Three-dimensional Transient Process of the Pumped Storage Unit”, Dongfang Electric Group Dongfang Motor Co., Ltd.
[150] 2015.04-2016.03, “Trial Production of a New High-Efficiency Hydro-Generator Unit”, Hangzhou Asia-Pacific Hydropower Equipment Technology Co., Ltd.
[151] 2015.04-2017.04, “Development of Hydraulic Mechanical Test System in Tibet Agricultural and Animal Husbandry University”, College of Water Conservancy and Civil Engineering, Tibet Agriculture and Animal Husbandry University.
[152] 2015.06-2016.06, “Calculation of Hydraulic Transition Process of Xiaohongshan Pumping Station in the Second Phase of Water Diversion and Water Supply Project”, Xinjiang Uygur Autonomous Region Water Conservancy and Hydropower Survey and Design Institute in Ministry of Water Resources,
[153] 2015.07-2016.06, “Rental of a New Runner Performance Test Equipment and Test Platform”, Rural Electrification Research Institute in Ministry of Water Resources.
[154] 2015.08-2016.08, “Performance Analysis of a New High-efficiency Hydro-generator Unit”, Chongqing Xin’an Hydropower Equipment Manufacturing Co., Ltd.
[155] 2015.10-2016.01, “Professional Instruction of Fluid Machinery and Engineering Application”, Shanghai Guanlong Valve Machinery Co., Ltd.
[156] 2015.11-2017.06, “Optimization of CFD Structure for Outflow Edge of Runner Blades”, Zhejiang Zhongshui Power Equipment Co., Ltd.
[157] 2015.12-2016.11, “Water Conservancy and Hydropower Engineering Discipline Construction Project-Turbine Test Bench Construction”, College of Agriculture and Animal Husbandry, Tibet University.
[158] 2016.01-2016.12, “Development and Manufacture of the 10MW Runners of Muzati River Three-stage Hydropower Station”, Xinjiang Xinhua Muzhati River Hydropower Development Co., Ltd.
[159] 2016.03-2016.06, “Kusakli Power Station Index Test in Turkey”, Zhejiang Guomao Group Oriental Mechanical and Electrical Engineering Co., Ltd.
[160] 2016.04-2017.03, “Development of Measurement Software System for Hydraulic Machinery Test Bench”, Tianjin Tianfa Heavy Hydropower Equipment Manufacturing Co., Ltd.
[161] 2016.11-2017.12, “MHP (Pb001), CHP (Pb002), DHP (Pb003), PHP (Pb002) Power Station Index Aacceptance Test, China Electric International Technology Co., Ltd.
[162] 2016.11-2017.11, “Vibration Noise Test and Analysis Equipment”, Tianjin Pumps & Machinery Group Co., Ltd.
[163] 2016.12-2017.02, “Analysis on Flow Channel of the ZZ560b-LH-330 Turbine of Baiyutan Hydropower Station in Hengyang, Hunan Province”, Hunan Yunjian Group Co., Ltd.
[164] 2017.01-2018.06, “the Runner Transformation CFD Analysis of Unit 3 in Xiaodongjiang”, China Changjiang Power Group Co., Ltd.
[165] 2017.03-2017.12, “Experimental Study on Efficiency Index of MACHAI Power Station”, Zhejiang Jinlun Electromechanical Industry Co., Ltd.
[166] 2017.05-2017.12, “Research on Runner Development of Baiyutan Hydropower Station in Hengyang, Hunan Province”, Hunan Yunjian Technology Co., Ltd.
[167] 2017.06-2018.06, “Study on Hydraulic and Structural Performance of Deep-sea Fluid Machinery”, Powerful Pump Group Xingtang Pump Co., Ltd.
[168] 2017.06-2018.12, “Study on Solid-Coupled Dynamic Characteristics of Runner of Yangjiang Pumped Storage Power Station in Guangdong Province”, China Southern Power Grid Co., Ltd. Peak and Frequency Modulation Power Generation Company.
[169] 2017.06-2020.12, “Ministry of Industry and Information Technology of China: Green Manufacturing System Integration Project: Green Design Platform Construction Project of Efficient Hydropower Equipment”, Tianjin Tianfa Heavy Hydropower Equipment Manufacturing Co., Ltd.
[170] 2017.12-2018.11, “Study on the Overall Modal and Stiffness Strength Characteristics of the Head Cover, Seat Ring and Connecting Bolt of Pump-turbines”, China Institute of Water Resources and Hydropower Research.
[171] 2018.01-2018.06, “Flow analysis of Steel Fork Pipe of Pachun Hydropower Station in Pakistan”, China Electric Power Construction Group East China Survey and Design Institute Co., Ltd.
[172] 2018.01-2022.12, “Ministry of Industry and Information Technology of China: Green Manufacturing System Integration Project: High Efficiency Multiphase Slurry Pump Green Design Platform Construction Project”, Shijiazhuang Powerful Pump Group Co., Ltd.
[173] 2018.02-2022.12, “Ministry of Industry and Information Technology of China: Green Manufacturing System Integration Project: Plateau Turbine Green Design Platform Construction Project”, Tibet Huadong Hydropower Equipment Co., Ltd.
[174] 2018.05-2019.03, “Calculation Analysis of Runner Dynamic Stress of Yangjiang Water Pump Turbines”, Harbin Electric Machinery Co., Ltd.
[175] 2018.06-2019.06, “Transient Calculation of the Whole Flow Field of the XX-77 Oxygen Pumps”, Beijing Aerospace Power Research Institute.
[176] 2018.08-2018.12, “Water Hammer Calculation and Water Hammer Protection Measures Analysis of Mauling Water Conservancy Project in Xingyi City, Guizhou Province”, China Electric Power Construction Group Guiyang Survey and Design Institute Co., Ltd.
[177] 2018.09-2021.09, “Study on Transient Process Analysis System of Hydraulic System”, Shanghai Guanlong Valve Machinery Co., Ltd.
[178] 2018.09-2019.03, “Association Curve Test and Runner Optimization Project of the Turbines in Hongbiyan Hydropower Plant in Datang Huayin Zhangjiajie Hydropower Co., Ltd.”, Hongbiyan Hydropower Plant in Datang Huayin Zhangjiajie Hydropower Co., Ltd.
[179] 2018.09-2019.12, “Technical Services of the Research on the Influence of Runner Sinking on the Safe Operation of Units in Xianyou Company in State Grid Xin Yuan Co., Ltd.”, Fujian Xianyou Pumped Storage Co., Ltd.
[180] 2018.11-2020.12, “Study on Dynamic Characteristics of Mud Pump Shafting under Multiple Working Conditions”, Zhongjiao Dredging Technology and Equipment National Engineering Research Center Co., Ltd.
[181] 2018.11-2020.12, “Three-dimensional Modeling and Rotor Dynamics Analysis of Mud Pump Shafting”, Zhongjiao Dredging Technology and Equipment National Engineering Research Center Co., Ltd.
[182] 2019.01-2022.12, “Study on Internal Energy Variation and Hydraulic Loss Mechanism of Hydraulic Machinery Under Unsteady Flow”, National Natural Science Foundation of China.
[183] 2019.04-2020.12, “Technology Development Services of Hydraulic Characteristics of Unsteady Process of Pumped Storage Units and Fluid-solid Coupling Dynamic Characteristics of Runner in the Technology Center of State Grid Xin Yuan Co., Ltd.”, State Grid Xin Yuan Co., Ltd.
[184] 2019.12-2021.12, “Research on Life Prediction of Fixed Parts of Pump Turbine Based on Dynamic and Static Interference, Fluid-Solid Coupling and Fracture Mechanics in Maintenance Test Branch of China Southern Power Grid Peak Regulation and Frequency Modulation Company”, Maintenance Test Branch of China Southern Power Grid Peak Regulation and Frequency Modulation Power Generation Co., Ltd.
[185] 2019.12-2020.12, “Prediction and Analysis of Water Pipeline Leakage Based on Hydraulic Transient Simulation”, Fujian Baixing Electric Power Technology Service Co., Ltd.
[186] 2020.01-2020.12, “Dynamic Characteristics Analysis of HLY251-LJ-350 Runner of Zangao Hydropower Station on Yarkant River in Xinjiang”, Xinjiang Xinhua Chagao Hydropower Development Co., Ltd.
[187] 2020.05-2021.01, “Optimization Design Analysis of HLY251-LJ-350 Runner of Zangao Hydropower Station on Yarkant River in Xinjiang”, Hunan Yunjian Technology Co., Ltd.
[188] 2020.06-2021.12, “Study on Fluid-solid Coupling Dynamic Characteristics of Key Flow Channel Components of the units in Anhui Jinzhai Pumped Storage Power Station”, Anhui Jinzhai Pumped Storage Co., Ltd.
[189] 2020.06-2023.06, “Study on Safe and Stable Operation of Large-scale Kaplan Turbine Units in Datengxia Water Conservancy Project”, Guangxi Datengxia Gorge Water Conservancy Development Co., Ltd.
[190] 2020.06-2021.12, “Yinchuan Metropolitan Area Midline Water Supply Project - Analysis of unsteady flow characteristics of pumping station hydraulic system and sediment-laden cavitation in flow channel of units”, Ningxia Water Conservancy Construction Center.
[191] 2020.06-2021.12, “Yinchuan Metropolitan Area Midline Water Supply Project - Study on the Characteristics of Sediment-laden Gravity Flow in the Transient Process of Water Pipeline System”, Ningxia Water Conservancy Construction Center.
[192] 2020.07-2021.03, “Analysis on Crack Causes of Turbine Main Shaft in Bingling Hydropower Station”, Gansu Diantou Bingling Hydropower Development Co., Ltd.
[193] 2020.11-2021.12, “Technical Consultation on Geological Vibration Induced by Hydraulic Excitation of Fujian Xiamen Pumped Storage Power Station”, Fujian Xiamen Pumped Storage Co., Ltd.
[194] 2021.03-2022.06, “Calculation and Protection of the Hydraulic Transition Process of the Pumping Station in the Middle Line Water Supply Project of Yinchuan Metropolitan Area (Yinchuan and Shizuishan Hedong Irrigation Area Water-Saving Renovation Project)”, Ningxia Hydroelectric Survey and Design Research Institute Co., Ltd.
[195] 2021.03-2024.03, “Hydraulic Excitation Response Characteristics Analysis and Evaluation of Pumped Storage Units”, ANDRITZ (China) Co., Ltd.
[196] 2021.04-2021.04, “Technical Services Contract for Overall Design Scheme Review of Main Unit of Zangao Hydropower Station Project on Yarkant River in Xinjiang”, Xinjiang Xinhua Zangao Hydropower Development Co., Ltd.
[197] 2021.06-2023.11, “Services on Transient Strong Vibration of the Roof During Transient Process in Baishan Power Station in State Grid Xin Yuan Co., Ltd.”, Baishan Pumped Storage Power Station in State Grid Xin Yuan Co., Ltd.
[198] 2021.06-2023.06, “Analysis of Multi-field Coupling Performance of Pump Turbine Shafting in Fujian Xianyou Company in State Grid Xin Yuan Co., Ltd.”, Fujian Xianyou Pumped Storage Co., Ltd.
[199] 2021.07-2021.12, “Water Hammer Protection Calculation for Long Distance Water Transmission in Emergency Water Source Construction Project in Jiujiang City”, Shanghai Institute of Survey and Design Co., Ltd.
[200] 2021.08-2021.08, “Ambuhara Irrigation System Restoration Project in Uzbekistan—the Rationality, Safety and Service Life Demonstrations of the Design and Manufacture of 10 Main Pumps in the Renovation and Repair Project of Kizil Tepa Pumping Station”, China Council for the Promotion of International Trade Hebei Mediation Center.
[201] 2021.08-2022.12, “Study on Hydraulic Model and Operation Performance of Prototype Units of Zangao Power Station”, Chongqing Turbine Plant Co., Ltd.
[202] 2021.08-2022.06, “Study on Unsteady Flow Characteristics of Clearance Jet Flow in Guide Vanes of High-head Pump Turbines”, Dongfang Electric Group Dongfang Motor Co., Ltd.
[203] 2021.08-2024.06, “Supplementary Protocol for Analysis and Evaluation of Hydraulic Excitation Response Characteristics of Pumped Storage Units”, ANDRITZ(China)Co., Ltd.
[204] 2021.09-2022.12, “Development of Low Pressure Pulsating Flow Channels in 400 Meters Head Section of Pumped Storage Turbine”, ANDRITZ ( China ) Co., Ltd.
[205] 2021.10-2023.12, “Supplementary Contract for Research and Development of Runners of Unit 1 and Unit 2 in Xinjiang Muzatihe Tertiary Hydropower Station”.
[206] 2021.10-2023.02, “Mechanism and Engineering Application of Shafting Dynamic Performance Change Caused by Installation Deviation of Giant Hydro-Generator Units,” China Water Resources and Hydropower Fourth Engineering Bureau Co., Ltd.
[207] 2022.03-2023.12, “Soil Wear Mechanism and Anti-Wear Rotor R&D Development Project of Targak Hydropower Plant in Xinhua Hydropower Investment Co., Ltd”, Tagaq Hydropower Plant - Xinjiang Xinhua Hydropower Investment Co., Ltd.
[208] 2022.05-2024.06, “Application Technical Services of Safety Prediction Evaluation System for Transient Dynamic Characteristics of Pumped Storage Units in Zhen’an Company”, Shanxi Zhen’an Pumped Storage Co., Ltd.
[209] 2022.05-2024.06, “Service on Multi-field Coupling Performance of Variable-speed Pump-turbine Unit Shafting in Hebei Fengning Pumped Storage Power Station”, Hebei Fengning Pumped Storage Co., Ltd.
[210] 2022.06-2023.12, “Study on Stable Operation of Wanjiazhai Hydropower Station Units”, Yellow River Wanjiazhai Water Control Project Co., Ltd.
[211] 2022.07-2024.06, “Prediction and Evaluation of Transient Dynamic Characteristics of the Units in Zhejiang Ninghai Pumped Storage Power Station”, Zhejiang Ninghai Pumped Storage Co., Ltd.
[212] 2022.08-2023.07, “ Re-evaluation Calculation of Coupling Performance of Pump-turbine Shafting in Henan Luoning Pumped Storage Power Station”, Henan Luoning Pumped Storage Co., Ltd.
[213] 2022.08-2023.08, “Dynamic Characteristics Multi-field Coupling of 1000MW Hydro-generator Units,” Ningnan Baihetan Power Plant in Three Gorges Jinsha Jiang Yunchuan Hydropower Development Co., Ltd.
[214] 2022.09-2023.02, “Optimization of water supply pump model for Haiyuan Xi’an water supply source project in central arid zone” ,Chongqing Pump Factory Co., Ltd.
[215] 2023.01-2023.12, “Pump Tower’s and Base’s Structural Design—Analysis of Three-dimensional Flow Characteristics and Vibration Response Evaluation of LNG Loading and Unloading”, Hudong Zhonghua Shipbuilding (Group) Co., Ltd.
[216] 2023.04-2024.10, “Vibration Performance Evaluation of Units and Multi-Field Coupling Performance of Shaft System in Henan Wuyue Pumped Storage Power Station”, Henan Xinhua Wuyue Pumped Storage Power Generation Co., Ltd.
[217] 2023.05-2024.12, “Structural Dynamic Characteristics Analysis of Wide-Band Hydraulic Excitation with Double Regulation of Guide Vane Opening and Speed for Variable Speed Units of Hebei Fengning Pumped Storage Power Station”, Hebei Fengning Pumped Storage Co., Ltd.
[218] 2023.04-2024.12, “The Influence of Water-Induced Vibration of Pumped Storage Power Station on the Performance of Volute Concrete of Pumped Storage Power Station and Engineering Improvement Consultation”, Baoding Yixian Pumped Storage Co., Ltd.
[219] 2023.04-2024.12, “Research Service on Three-dimensional Water Hammer Vibration of Water Pump Turbine and Water Delivery System in Shandong Weifang pumped storage power station.”, Shandong Weifang Pumped Storage Co., Ltd.
[220] 2023.05-2025.05, “Study on Safe Operation Based on Unit Performance Prediction in Xinjiang Zangao Hydropower Station”, Xinjiang Xinhua Zangao Hydropower Development Co., Ltd.
[221] 2023.11-2026.03, “Evaluation of Fluid-Solid Coupling Dynamic Characteristics of Steady-State and Transient Operation Of Pump-Turbine Units in Fujian Yunxiao Pumped Storage Power Station”, CNNP Guodian Zhangzhou Energy Co., Ltd.
[222] 2023.11-2025.12, “Flow Channel Development and Safety Evaluation of Structural Design of Pump-Turbine Units in Xidayu Pumped Storage Power Station”, Tianjin Tianfa Heavy Machinery Hydro Power Equipment Manufacturing Co., Ltd.
[223] 2023.12-2026.11, Research on the Design and Intelligent Optimization Methods of Super Large Impact-Type Turbine impellers, Harbin Electric Machinery Co., Ltd.
[224] 2024.01-2027.12,Key Technologies for Intelligent State Monitoring and Fault Identification of Hydropower Plant Units Based on Cloud-Edge Collaboration, Huazhong University of Science and Technology.
[225] 2024.01-2026.12, Performance Prediction and Evaluation Optimization of Flow-solid Coupling of Variable Speed Water Pump Turbines in Huizhou Zhongdong, Huizhou Zhongdong Pumped Storage Power Generation Co., Ltd.
[226] 2024.01-2026.12, Technical Service for Predicting and Optimizing the Flow-solid Coupling Performance of the Variable-speed Water Pump Turbines in Langjiang, Zhaoqing, Guangdong, Zhaoqing Langjiang Pumped Storage Power Generation Co., Ltd.
[227] 2024.03-2030.12, Study on the safe and stable operation of high speed, high head and large capacity pump-turbine units of Guilin pumped storage Power Station in Guangxi, Guangxi Longsheng Yuansheng Hydroelectric Power Co., LTD
[228] 2024.12-2028.11, Key Technologies and Equipment for Enhancing the Flexibility of Mixed-Flow Hydropower (Project No. 2024ZD0801800, Principal leader of the whole Program and sub-program 1), National Major Science and Technology Program on Smart Grid.
[1] CFD research on low head large inclined shaft pumps, Da Yu Hydraulic Science and Technology Award, Third prize, 2004.
[2] Development of a novel tidal turbine, China State Electricity Group's Science & Technology Progress Award, First prize, 2008
[3] Digital design and development of Francis turbines, Heilongjiang Province Mechanical Industry Science and Technology Award, Frist prize, 2008
[4] Research on the stability analysis and treatment of the generator set frame structure of Zhouningshui Hydropower Station, Science and Technology Progress Award of China Huaneng Group Corporation, Second prize, 2008.
[5] Fundamentals of Fluid Machinery, a Beijing Higher Education Quality Textbook in 2008, Second prize for Excellent Textbook by Tsinghua University, 2008.
[6] Research and development of new tidal power generator technology, Da Yu Hydraulic Science and Technology Award, First prize, 2010.
[7] Development of a new tidal hydro generator unit, China Electric Power Science and Technology Award, Second prize, 2011.
[8] Key technology research on transient hydraulic characteristics and fatigue life of tubular turbines, Da Yu Hydraulic Science and Technology Award, Second prize, 2012.
[9] Research on key technologies to improve the operational stability of modern hydropower systems, Science and Technology Progress Award by Ministry of Education, Second prize, 2012.
[10] A Hydropower Generator Teaching Platform, Tsinghua University Outstanding Teaching Software Award, First prize, 2012.
[11] Development of a new tidal hydro generator unit, National Energy Science and Technology Progress Award, Third prize, 2013.
[12] Research on domestic manufacturing mud pumps for large dredgers, China Water Transport Construction Industry Science and Technology Award, First prize, 2013.
[13] Research on domestic manufacturing mud pumps for large dredgers, Science and Technology Progress Award by China Communications Construction Company Limited, First prize, 2013.
[14] Study on fluid-solid coupling dynamic characteristics of hydraulic machinery runners, Da Yu Hydraulic Science and Technology Award, Second prize, 2014.
[15] Research on domestic manufacturing mud pumps for large dredgers, Tianjin Science and Technology Progress Award, Second prize, 2014.
[16] Analysis and optimization design of hydraulic machinery flow based on vortex dynamic theory,Science and Technology Progress Award by Ministry of Education, Second prize, 2014.
[17] Design of bidirectional six-operation full Kaplan turbine unit for low-head water turbines, the 8th National College Students’ Energy Conservation and Emission Reduction Social Practice and Technology Competition, First prize, 2015.
[18] Study on the stability and application of multi-dimensional coupling shaft system of peak-and -frequency regulation hydroelectric units, China Electric Power Science and Technology Award, Second prize, 2016.
[19] Study on the stability and application of multi-dimensional coupling shaft system of peak-and -frequency regulation hydroelectric units, Science and Technology Progress Award by Electric Power Research Institute in China Southern Power Grid, First prize, 2016.
[20] Study on the stability and application of multi-dimensional coupling shaft system of peak-and -frequency regulation hydroelectric units, Science and Technology Progress Award of Guangdong Power Grid Co., Ltd., China Southern Power Grid, First prize, 2016.
[21] Study on the stability and application of multi-dimensional coupling shaft system of peak-and -frequency regulation hydroelectric units, China Southern Power Grid, Third prize, 2016.
[22] Manufacturing super large dredging and suction dredgers and its’ engineering application, Science and Technology Prize by China Water Transportation Construction Association, Grand prize, 2016
[23] Study on the stability and application of multi-dimensional coupling shaft system of peak-and -frequency regulation hydroelectric units, Guangdong Provincial Science and Technology Award, Third prize, 2017.
[24] Unit 1 in Longyuan Power Wenling Jiangxia Tidal Test Station, Outstanding Ocean Engineering Award, 2018.
[25] Technical application research on efficiency improvement and capacity expansion transformation of Unit 1 at Jiangxia Tidal Test Power Station, Science and Technology Progress Award by CHN Energy, Third prize, 2018.
[26] Research and application of the design, manufacturing a new type of tidal turbine with three blades and a model project construction, China Electricity Enterprises’ Innovation Award, First prize, 2018.
[27] Research and application of the design, manufacturing a new type of tidal turbine with three blades and a model project construction, Oceanic Engineering Science and Technology Prize, Second prize, 2019.
[28] The Ministry of Education’s Higher Education Institutions for Energy & Power Engineering Professional education reform project “Fundamentals of Fluid Machinery”, Excellent key project, 2019.
[29] Online course “Fundamentals of Fluid Machinery”, National first-class undergraduate course by Ministry of Education, 2020.
[30] Bidirectional horizontal axis tidal energy generator units, China Electric Power Technology Invention Award, Second prize, 2020.
[31] Study and application of the impact of wheel subsidence on the safe operation of the unit in Xianyou Company, Science and Technology Progress Award by State Grid Xin Yuan Company Limited, Third prize, 2020.
[32] Development and application of key safety technologies for unsteady flow solid systems in pumped storage units, Hydropower Science and Technology Award, Second prize, 2021.
[33] Development and application of key safety critical technologies for unsteady flow solid systems in pumped storage units, Science and Technology Progress Award by State Grid Xin Yuan Company Limited, First prize, 2021.
[34] A anti-wear Francis turbine suitable for high head, high speed, and high sand content, Equipment Management Innovative achievements in the National Power Industry, Second prize, 2021.
[35] Research and application of fluid-solid coupling analysis of high-head large-capacity pumped storage unit turbine runners, Guangdong Power Science & Technology Project Award, Second prize, 2022.
[36] Key technology development and application of multi-field coupled dynamic characteristics of the hydroelectric generator unit shaft system, Power technology innovation prize, First prize, 2022.
[37] Bidirectional horizontal axis tidal energy generator unit, Mechanical engineering science and technology award, Second prize, 2022.
[38] Optimization research and application of the hydraulic system for the water source pump station in the central line water supply project of the Yinchuan urban area, NingXia Hydraulic Engineering Society, The Ningxia Hydrological Science & Technology Award, Third prize, 2022.
[39] Key technologies development and engineering applications of bidirectional tidal turbine units, science and technology award by China Renewable Energy Society, First prize, 2023.
[40] Key technologies development and engineering applications of 700-meter-high stability pumped storage units with 400,000-kilowatt, Hydropower Science and Technology Award by China Society for Hydropower Engineering, First prize, 2023.
[41] High-speed-ratio and Francis turbines with high resistance to sand erosion, The 17th Beijing Invention and Innovation Competition, Bronze prize, 2023.
[42] Development and application of key safety technologies for unsteady flow solid systems in pumped storage units, Power Science and Technology Progress Award by Chinese Society for Electrical Engineering, Third prize, 2023.
[43] Key technologies and core equipment innovation for efficient utilization of tidal kinetic energy, Innovation and Entrepreneurship Award for Outstanding Achievements by China Association of Inventions, First prize, 2024.
[44] Key technologies and applications for prediction and control of dynamic characteristics of hydropower station, Power Science and Technology Progress Award by Chinese Society for Electrical Engineering, First prize, 2024.
[45] Key technologies and applications of hydraulic design for high hydraulic stability mixed-flow turbines, China Hydropower Engineering Society, Scientific and Technological Progress Award in Hydropower Generation, First Prize, 2024.
[46] Key technologies and applications for the safe and stable operation analysis of hydropower units under all working conditions, China Association for the Promotion of International Trade, Science and Technology Progress Award, First Prize, 2024.
[1] A Francis turbine with new guide vanes and blade profile lines, No. 2010105885427
[2] A bidirectional tidal power turbine with six operating conditions, No. 2011100865510
[3] A bidirectional tidal power turbine with six operating conditions and three-blade runner, No. 2015105707526
[4] A gas-liquid-solid mixing device, No. 2018100909690
[5] Pump and turbine dual-purpose multiphase characteristic test bench and its test method, No. 2018100906067
[6] An anti-wear Francis turbine suitable for high head, high speed and high sediment concentration, No. 2019106014975
[7] An adjustable water intake device for pumping stations, No. 2021106668543
[8] A measuring device and method for underwater modes of rotating impeller machinery, No. 202110569939X
[9] An adjustment method of axial water thrust of high head pump turbines, No. 2021105067703
[10] A silt control device for intelligent lifting and lowering beam and its application, No. 2021106680259
[11] A Francis turbine and its runner, No. 2022117295796
[12] A volute structure for reducing pressure pulsation of pump turbine and pump turbine, No, 2022114743038
[13] A self-cleaning device and system for jet scouring and silting in inlet pool of pumping station, No. 2022110517593
[15] The method and device for determining the fault risk components of the hydraulic turbine, No. 2023106049928
[16] An analysis method, system, equipment and medium for wet mode of hydraulic turbine shaft system, No. 202310556778X
[17] Methods, devices, equipment, media and procedures for determining the characteristics of pressure pulsation, No. 202310368885X
[18] Runner and Francis turbine, No. 2023101983856
[19] A Francis turbine, No. 202311012175X
[20] A built-in rotating shaft system for modal feature measurement, method, and water turbine, No. 202311862085X
[21] A dredging device and dredging equipment in reservoir area of hydropower stations. No. 2023117203233
[22] Method and system for the arrangement of geological vibration measurement points induced by hydraulic stimulation, No. 2023110761506
[23] A water guide device and a Francis turbine, No. 2023111580300
[24] A turbine runner and its sealing ring, No. 2023113413919
[25] A Tailrace pipe and a water turbine, No. 2023113592425
[26] A runner and a turbine for hydraulic turbines, No. 2023114233928
[27] A method for identifying components at a risk of failure in turbines and its device, equipment and storage medium, No. 2023114699398
[28] An adjustable lower ring gap runner and a turbine, No. 2024100128564
[29] A self-adjusting blade profile of the turbine runner and turbine, No. 2024100128579
[30] An embedding method, device, equipment and storage medium of water-filled and pressure-retaining spiral case cushion, No. 2024104843221
[31] A method, devices, electronic equipment, storage media, and a product for reservoir scheduling, No. 2024105578577
[32] A turbine and its movable guide vanes, No. 2024106583021
[33] A runners and turbine for hydraulic turbines, No. 2024107639240
[34] A pre-tightening device and method for a water-filled pressure-maintaining volute, No. 2024107173344
[1] A Kaplan Turbine, No. 2011204441611
[2] A Francis turbine with new guide vanes and blade profile lines, No. 2011205125895
[3] A Francis turbine with new guide vanes and blade profile lines, No. 2011205126830
[4] A bidirectional tidal power turbine with six operating conditions, No. 2012206473715
[5] A Francis pump-turbine, No. 2013208421230
[6] A mixed-flow rotor, No. 2021201987815
[7] A top cover of pump-turbine units, No. 2023202629258
[8] A vibration absorption structure of pump turbines and pump turbines, No. 2022234386541
[9] A pump turbine, No. 2022230844080
[10] A roof cover and a turbine, No. 2023228130443
[11] A magnetic pole, a motor and a turbine, No. 2023231507816
[12] The thrust bearing and thrust load system of Francis turbine units, No. 2023231609311
[1] Tidal Power Station Turbine Runner Selection Optimization Application Software V1.0, Software copyright registration No. 0294261
[2] A Simulating Multimedia Teaching System of Turbine Generator Units V1.0, Software copyright registration No. 0350831
[3] Mud pump database information management system V1.0, Software copyright registration No. 0433894
[4] A Calculation System for Thrust Bearing Lubrication of Generator of Pumped Storage Units, Software copyright registration No. 0660416
[5] Hydro-generator Unit Stability Test Data Acquisition and Analysis Software V1.0, Software copyright registration No. 1090731
[6] Performance Analysis Software V1.0 for Water Turbine Generators Considering Installation Deviation Effects, Software copyright registration No. 12516473
[7] Water Turbine Generator Unit Shaft System Operation Status Display Platform V1.0, Software copyright registration No.13732060
[1] Wang, Z. W. (2006) Fundamentals of Fluid Machinery (“Eleventh Five-Year” national planed textbook), Beijing: Tsinghua University Press.
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