何緯峰,男,博士,南京航空航天大學能源與動力學院副研究員。
基本介紹
- 中文名:何緯峰
- 職業:教師
- 畢業院校:西安交通大學
- 學位/學歷:博士
- 專業方向:動力工程及工程熱物理
- 任職院校:南京航空航天大學能源與動力學院
研究方向,人物經歷,學習經歷,工作經歷,學術成果,科研項目,學術論文,專利,
研究方向
動力工程及工程熱物理
人物經歷
學習經歷
[1]. 2009.3- 2012.11
西安交通大學 | 動力工程及工程熱物理 | 博士研究生畢業 | 工學博士學位
[2]. 2006.9- 2009.2
西安交通大學 | 動力工程及工程熱物理 | 碩士研究生畢業 | 工學碩士學位
[3]. 2002.9- 2006.7
西安交通大學 | 熱能與動力工程 | 大學本科畢業 | 工學學士學位
[4]. 1999.9- 2002.7
江蘇省常熟中學 | 普通高中畢業
工作經歷
[1]. 2017.12- 2019.12
香港理工大學 | 建築與環境學院 | 香江學者/博士後
[2]. 2019.6- 至今
南京航空航天大學 | 能源與動力學院 | 副研究員
[3]. 2013.5- 2019.6
南京航空航天大學 | 能源與動力學院 | 講師/博士後
學術成果
科研項目
- 雙熱質耦合零排放熱力循環性能及變濕過程熱質輸運機理研究, 2020-01-01
- 基於加濕除濕海水淡化方法的分散式水電聯產系統集成機理研究, 國家自然科學基金
- 新型內聯式水力發電系統設計研發及數值仿真, 2018-09-17
學術論文
[1]W. F. He*, J.J. Chen, D. Han, L.T. Luo. Energetic, entropic and economic analysis of an open-air, open-water humidification dehumidification desalination system with a packing bed dehumidifier. Energy Conversion and Management, 2019, 199: 112016.
[2]W. F. He*, H.X. Yang, D. Han. Thermodynamic investigation and optimization of a heat pump coupled open-air, open-water humidification dehumidification desalination system with a direct contact dehumidifier . Desalination, 2019, 469: 114101.
[3]W.F. He*, H.X. Yang, D. Han. Thermodynamic analysis of a combined plant for power and water production, Journal of Cleaner Production, 2019, 228: 521-532.
[4]W.F. He*, T. Wen, D. Han*, L.T. Luo, R.Y. Li, W.C. Zhong. Energetic, entropic and economic analysis of a heat pump coupled humidification dehumidification desalination system using a packed bed dehumidifier . Energy Conversion and Management, 2019, 194: 11-21.
[5]W.F. He*, J.J. Chen, D. Han, T. Wen, L.T. Luo, R.Y. Li, W.C. Zhong. Numerical analysis from the Rotational speed regulation within the fan array on the performance of an air-cooled steam condenser , Applied Thermal Engineering, 2019, 153: 352-360.
[6]W. F. He*, D. Han. Thermodynamic, economic analysis and optimization of a heat pump driven desalination system with open-air humidification dehumidification configuration. Energy, 2019, 174: 768-778.
[7]W. F. He*, J.J. Chen, D. Han. Parametric investigation of a humidification dehumidification desalination system with open-air and semi-closed seawater configurations powered by waste heat. Desalination and Water Treatment, 2019, 145: 46-56.
[8]W. F. He*, D. Han. Parametric analysis of a power-water cogeneration system based on single-extracted organic Rankine cycle. Applied Thermal Engineering, 2019, 148: 382-390.
[9]W. F. He*, H.X. Yang, T. Wen, D. Han. Thermodynamic and economic investigation of a humidification dehumidification desalination system driven by low grade waste heat. Energy Conversion and Management, 2019, 183: 848-858.
[10]W.F. He*, D. Han. A Mechanical Vapor Compression Desalination System Coupled with a Transcritical Carbon Dioxide Rankine Cycle. Desalination, 2018, 425: 1-11.
[11]W.F. He*, D. Han, W.P. Zhu, C. Ji. Thermo-economic analysis of a water-heated humidification-dehumidification desalination system with waste heat recovery. Energy Conversion and Management, 2018, 160: 182-190.
[12]W.F. He*, D. Han, C. Ji. Investigation on Humidification Dehumidification Desalination System Coupled with Heat Pump. Desalination, 2018, 436:152-160.
[13]W. F. He*, F. Wu, T. Wen, Y.P. Kong, D. Han. Cost analysis of a humidification dehumidification desalination system with a packed bed dehumidifier. Energy Conversion and Management, 2018, 171: 452-460.
[14]W.F. He*, H.X. Yang, D. Han. Thermodynamic Analysis of a Power and Water Combined System with Geothermal Energy Utilization , Geothermics, 2018, 76: 106-115.
[15]W. F. He, D. Han*, H.X. Yang. Energy, entropy and cost analysis of a combined power and water system with cascade utilization of geothermal energy. Energy Conversion and Management, 2018, 174: 719-729.
[16]W.F. He*, D. Han, W.P Zhu, J.R. Xia. Parametric analysis of a power and water combined system based on a top organic Rankine cycle. Journal of Energy Engineering, 2018, 144: 04018037.
[17]W.F. He*, X.K. Zhang, D. Han, L. Gao. Performance analysis of a water-power combined system with air-heated humidification dehumidification process. Energy, 2017, 130: 218-227.
[18]W.F. He*, D. Han, C. Yue, W.H. P. Parametric analysis of a humidification dehumidification desalination system using a direct contact dehumidifier, International Journal of Thermal Sciences, 2017, 120: 31-40.
[19]W.F. He*, D. Han, C. Yue, W.H. Pu. Sensitivity Analysis from the Blade Angle Regulation of the Forced Draught Fans in an Air-cooled Steam Condenser. Applied Thermal Engineering, 2017, 123: 810-819.
[20]W.F. He*, D. Han, X.K. Zhang, Y.K. Wu, L. Huang. Performance simulation of a power-water combined plant driven by low grade waste heat. Energy Conversion and Management, 2017, 145: 107-116.
[21]W.F. He, D. Han*. Performance Analysis of the Mechanical Vapor Compression Desalination System Driven by an Organic Rankine Cycle, Energy, 2017, 141: 1177-1186.
[22]W. F. He*, D. Han, C. Yue, W. H. Pu. Parametric analysis of an air-heated humidification-dehumidification (HDH) desalination system with waste heat recovery. Desalination, 2016, 398:30-38.
[23]W.F. He*, L.N. Xu, D. Han, C. Yue, W.H. Pu. Performance analysis of an air-heated humidification-dehumidification (HDH) desalination plant powered by low grade waste heat, Energy Conversion and Management, 118 (2016): 12-20.
[24]W.F. He*, D. Han, L.N. Xu, C. Yue, W.H. Pu. Performance investigation of a novel water–power cogeneration plant (WPCP) based on humidification dehumidification (HDH) method, Energy Conversion and Management, 110 (2016): 184-191.
[25]W.F. He*, L.N. Xu, D. Han, C. Yue, W.H. Pu. Thermodynamic investigation of waste heat driven desalination unit based on humidification dehumidification (HDH) processes, Applied Thermal Engineering, 100 (2016): 315-324.
[26]W. F. He*, D. Han, C. Yue, W. H. Pu. Sensitivity and optimization Analysis of design wind angle for air-cooled power plant. Journal of Energy Engineering, 2016, 04016010: 1-8.
[27]W.F. He*, D. Han, C. Yue, W.H. Pu. A parametric study of a humidification dehumidification (HDH) desalination system using low grade heat sources, Energy Conversion and Management, 105 (2015): 929-937.
[28]W. F. He*, D. Han, C. Yue, W. H. Pu. Influence Mechanism from the Inner Walkway on the Performance of an Air-cooled Power Plant. Journal of Energy Engineering, 141 (2015), 04014052.
[29]W. F. He*, Y. P. Dai, D. Han, C. Yue, W. H. Pu. Influence from the Rotating Speed of the Windward axial Fans on the Performance of an Air-cooled Power Plant. Applied Thermal Engineering, 65 (2014): 14-23.
[30]W. F. He*, D. Han, C. Yue, W. H. Pu, Y. P. Dai. Mechanism of the air temperature rise at the forced draught fan inlets in an air-cooled steam condenser. Applied Thermal Engineering, 71 (2014): 355-363.
[31]W. F. He*, Y. P. Dai, D. Han, C. Yue, W. H. Pu. Influence from the blade installation angle of the windward axial fans on the performance of an air-cooled power plant. Energy, 60 (2013): 416-425.
[32]W.F. He, Y.P. Dai*, M.Q. Li, Q.Z. Ma. Performance Prediction of an Air-cooled Steam Condenser Using UDF Method, Applied Thermal Engineering, 50 (2013): 1339-1350.
[33]W.F. He, Y.P. Dai*, J.F. Wang, M.Q. Li, Q.Z. Ma. Influence Mechanism on Flow and Heat Transfer Characteristics for Air-cooled Steam Condenser Cells, Heat and mass transfer, 2012, 48(9): 1663-1674.
專利
- [1]何緯峰, 韓東, 岳晨, 蒲文灝, 一種雙熱質耦合太陽能熱空氣型蒸發系統及方法, 發明專利, ZL201611214327.4, 授權.
- [2]何緯峰, 韓東, 黃玲, 岳晨, 蒲文灝, 一種閉式溶液循環零排放蒸發濃縮系統及其方法, 發明專利, ZL201710120233.9, 授權.
- [3]何緯峰, 韓東, 岳晨, 蒲文灝, 一種熱泵雙熱質耦合加濕脫濕蒸發系統及方法, 發明專利, ZL201611214236.0, 授權.
- [4]何緯峰, 韓東, 岳晨, 蒲文灝, 回收濕空氣潛熱的水電聯產系統及其方法, 發明專利, ZL201510663855.7, 授權.
- [5]何緯峰, 韓東, 岳晨, 蒲文灝, 熱泵海水淡化全耦合循環系統及其方法, 發明專利, ZL201510663628.4, 授權.
- [6]何緯峰, 韓東, 岳晨, 蒲文灝, 梯級海水淡化系統及其方法, 發明專利, ZL201510042152.2, 授權.
- [7]何緯峰, 韓東, 岳晨, 蒲文灝, 一種帶有吸風塔的新型空冷凝汽器及其方法, 發明專利, ZL201410472849.9, 授權.
- [8]何緯峰, 韓東, 岳晨, 蒲文灝. 一種回收海水淡化濃鹽水餘熱的水電聯產系統及其方法, 發明專利, ZL201410149719.1, 授權.
