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王沛 教授

新能源学院党委、新能源学院

导航

  • 个人概况
  • 科学研究
  • 教学信息
  • 社会职务
  • 荣誉及奖励
  • 招生信息

个人简介

王沛,男,江苏淮安人,1986年生,工学博士,教授,博士生导师,新能源科学与工程系书记,太阳能及多能互补研究所所长,江苏省可再生能源学会理事,入选河海大学首批“大禹学者”计划(2017),江苏省双创博士计划(2016),江苏省青年科技托举工程(2020),河海大学首批优秀研究生导师团队(2020),河海大学青年岗位标兵(2024)。2008年获得河海大学热能与动力工程学士学位,同年保送进入河海大学水利水电工程(新能源及抽水蓄能方向)硕博连读,国家公派加州大学河滨联合培养博士(Kambiz Vafai 教授),清华大学能源与动力工程系博士后(姜培学 院士)。担任SCI期刊《Journal of Porous Media》副主编;《Energy Storage and Saving》、《International Journal of Fluid Engineering》(卓越期刊计划)青年编委。主要研究兴趣包括:太阳能热发电系统优化设计运行,可再生能源制氢过程工艺及系统,综合能源系统配置运行与低碳评价主持国家重点研发计划课题、国家自然科学基金国网总部科技计划项目、江苏省自然科学基金、教育部重点实验室开放基金,参与“973”,“863”等国家级项目课题二十余项。一作及通讯作者高水平论文30余篇,其中ESI高被引论文2篇(总他引1500次以上,h指数19)。主讲《传热学》、《计算流体力学基础》、《新能源导论》等课程。电话:13851884286;邮箱:franciswp2012@163.com

个人资料

  • 姓名: 王沛
  • 性别:
  • 学位: 博士
  • 出生年月: 1986-02-06 00:00:00.0
  • 学历: 博士研究生毕业
  • 毕业院校: 河海大学

教育经历

  • 2018.12-2021.03,清华大学,动力工程及工程热物理,博士后
  • 2012.09-2014.02,加州大学,Mechanical Engineering,联合培养博士
  • 2008.09-2013.12,河海大学,水利水电工程(新能源及抽水蓄能方向),硕博连读
  • 2004.09-2008.06,河海大学,热能与动力工程

工作经历

  • 2013.12-2016.6,河海大学,讲师
  • 2016.7-2018.12,河海大学,副教授,系主任
  • 2019.7-2022.4,河海大学,青年教授,系书记
  • 2022.4-至今,河海大学,教授,系书记

研究领域

1、多孔介质多相多场(流-热-力-化)耦合建模与分析;

2、太阳能光伏/光热(塔式、槽式)发电系统优化设计与动态建模;

3、可再生综合能源系统(水-风-光-氢)配置/运行低碳评价。

科研项目

  • 1、槽式光热电站控制技术研究,2015.06.27 00:00:00+00-2016.12.27 00:00:00+00,许昌,中国电力科学研究院南京分院,电气与动力工程学院党委、电气与动力工程学院
  • 2、大孔隙多孔介质内气液两相流的流动结构及输运特性研究,2015.07.01 00:00:00+00-2018.06.30 00:00:00+00,王沛,江苏省科学技术厅,电气与动力工程学院党委、电气与动力工程学院
  • 3、大孔隙多孔介质内自由表面流的流动结构及输运特性研究,2016.01.01 00:00:00+00-2018.12.31 00:00:00+00,王沛,国家自然科学基金委员会,电气与动力工程学院党委、电气与动力工程学院
  • 4、管道内气水耦合瞬变流的多维度数值建模及研究,2015.09.01 00:00:00+00-2016.09.30 00:00:00+00,周领,水利水电学院党委、水利水电学院
  • 5、槽式光热电站控制技术,2015.11.01-,中国电力科学研究院南京分院,能源与电气学院
  • 6、光热发电机理模型研究,2015.12.18 00:00:00+00-2016.06.16 00:00:00+00,许昌,中国电力科学研究院南京分院,电气与动力工程学院党委、电气与动力工程学院
  • 7、新疆亚曼苏水电站输水发电系统调节保证设计计算与分析,2016.04.16 00:00:00+00-2016.07.30 00:00:00+00,周领,中国电建集团成都勘测设计研究院有限公司,水利水电学院党委、水利水电学院
  • 8、跨洲联网条件下北非地区太阳能资源规模化开发与利用模式研究,2018.01.01 00:00:00+00-2019.12.31 00:00:00+00,王沛,国网安徽省电力有限公司电力科学研究院,电气与动力工程学院党委、电气与动力工程学院

论文

  • 1、Numerical study of heat transfer enhancement in the receiver tube of direct steam generation with parabolic trough by inserting metal foams,APPLIED ENERGY,2013-1-1,Wang, Pei,Liu, D. Y,Wang, Pei
  • 2、Analysis of Radiative Effect under Local Thermal Non-Equilibrium Conditions in Porous Media-Application to a Solar Air Receiver,NUMERICAL HEAT TRANSFER PART A-APPLICATIONS,2014-5-15,Wang, Pei,Vafai, K,Vafai, K
  • 3、Analysis of collimated irradiation under local thermal non-equilibrium condition in a packed bed,INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2015-1-1,Wang, Pei,Vafai, K,Vafai, K
  • 4、Analysis on the collimated irradiation in a solar air receiver with porous media,PROCEEDINGS OF THE 17TH IAHR INTERNATIONAL CONFERENCE ON COOLING TOWER AND HEAT EXCHANGER,2015-9-30,Wang, Pei,Liu, D. Y,Wang, Pei
  • 5、Analysis of the volumetric phenomenon in porous beds subject to irradiation,UPPER("Numerical Heat Transfer Part a-Applications"),2016-1-1,Wang, Pei,Vafai, K,Vafai, K
  • 6、Conjugate heat transfer modeling and asymmetric characteristic analysis of the heat collecting element for a parabolic trough collector,INTERNATIONAL JOURNAL OF THERMAL SCIENCES,2016-5-1,Wang, Pei,Liu, D. Y,Wang, Pei
  • 7、Application of field theory on the non-uniform thermal boundary condition analysis on a parabolic trough collectors,UPPER("2016 IEEE International Conference on Power and Renewable Energy, ICPRE 2016"),2016-10-21,Wang, Pei,Xu,Chang,Wang, Pei
  • 8、A unified heat transfer model in a pressurized volumetric solar receivers,UPPER("Renewable Energy"),2016-12-1,Wang, Pei,Liu, D. Y,Wang, Pei
  • 9、Experimental and theoretical evaluation on the thermal performance of a windowed volumetric solar receiver,ENERGY,2017-1-15,Wang, Pei,Li, J. B,Wang, Pei
  • 10、Modeling and Analysis of an Efficient Porous Media for a Solar Porous Absorber With a Variable Pore Structure,JOURNAL OF SOLAR ENERGY ENGINEERING-TRANSACTIONS OF THE ASME,2017-7-18,Wang, Pei,Vafai, K,Vafai, K
  • 11、Thermo-Fluid Optimization of a Solar Porous Absorber With a Variable Pore Structure,JOURNAL OF SOLAR ENERGY ENGINEERING-TRANSACTIONS OF THE ASME,2017-8-23,Wang, Pei,Li, J. B,Vafai, K
  • 12、Partially shaded heat collector element - A practical approach to performance improvement,RENEWABLE ENERGY,2018-12-1,Wang, Pei,Li, J. B,Wang, Pei
  • 13、Turbulent Aggregation and Deposition Mechanism of Respirable Dust Pollutants under Wet Dedusting using a Two-Fluid Model with the Population Balance Method,INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH,2019-9-11,Wang, Pei,Shen,Shuai,Wang, Pei
  • 14、Acceptance-Rejection Sampling Based Monte Carlo Ray Tracing in Anisotropic Porous Media,UPPER("Energy"),2020-3-28,Wang, Pei,Li, J. B,Wang, Pei
  • 15、Experimental characterization on pore parameter and the irradiation absorption efficiency of a series SiC foam specimens,ENERGY CONVERSION AND MANAGEMENT,2020-4-10,Wang, Pei,Li, J. B,Vafai, K
  • 16、Study on Spectral Radiative Heat Transfer Characteristics of a Windowed Receiver with Particle Curtain,UPPER("Energies"),2021-5-1,Wang, L,Yang, L ,Wang, Pei
  • 17、Non-uniform and volumetric effect on the hydrodynamic and thermal characteristic in a unit solar absorber,UPPER("Energy"),2021-5-28,Wang, Pei,Li, J. B,Jiang, P. X
  • 18、Optimization on the gradually varied pore structure distribution for the irradiated absorber,UPPER("Energy"),2021-11-30,Li, J. B,Wang, Pei,Liu, Deyou
  • 19、A dual-scale transport model of the porous ceria based on solar thermochemical cycle water splitting hydrogen production,UPPER("Energy Conversion and Management"),2022-10-28,Wang, Pei,R.K. Wei ,Vafai, K
  • 20、Prediction of the SnO2-based sensor response for hydrogen detection by artificial intelligence techniques,UPPER("International Journal of Hydrogen Energy"),2023-7-6, Cheng,Shi,Wang, Pei,Wang, Pei
  • 21、Gas Loss Mechanism in the High-Pressure Air Cushion Surge Chamber of Hydropower Station for Transient Process,WATER,2023-8-24,Xia, Yong,Wang, Pei,Wang, Pei
  • 22、Peak shaving auxiliary service analysis for the photovoltaic and concentrating solar power hybrid system under the planning-dispatch optimization framework,UPPER("Energy Conversion and Management"),2023-9-11,Wang, Pei,Hu, Bangjie,Kambiz Vafai 
  • 23、DSG槽式真空集热管内金属泡沫强化传热的数值研究,中国电机工程学报,2012-1-1,王沛,刘德有,王沛
  • 24、太阳能真空集热管内多孔介质强化传热的三维数值模拟,太阳能学报,2012-12-28,王沛,刘德有,王沛
  • 25、塔式太阳能熔盐吸热器传热特性及㶲分析,中国电机工程学报,2019-6-20,王沛,李嘉宝,王沛
  • 26、光热驱动多孔氧化铈热化学循环解水制氢非热质平衡模型,化工学报,2022-4-12,王沛,魏荣阔,王沛
  • 27、太阳能热化学反应器多场耦合及协同优化研究,太阳能学报,2022-9-16,王沛,李嘉宝,王沛
  • 28、塔式太阳能热发电用空气吸热器研究综述,华电技术,2015-9-1,王沛,刘德有,王沛
  • 29、基于分布参数模型的塔式熔盐吸热器换热过程动态特性研究,可再生能源,2018-3-6,李嘉宝,王沛,赵亮
  • 30、GaAs/AlAs多量子阱超快动力学探究及其在热载流子太阳能电池中的应用,江苏省工程热物理学会第十二届学术会议,2018-6-15
  • 31、含液滴固-液二元颗粒体系湍流聚并行为机理研究,第十届全国流体力学年会-杭州,2018-11-12,王沛,申帅,王沛
  • 32、窗式颗粒幕吸热器腔内耦合传热机理建模研究,可再生能源,2021-3-10,王莉,王沛,王沛
  • 33、抽水蓄能电站高大地下厂房气流试验与数值模拟,水利水电科技进展,2020-1-10,王沛,王坤坤,王沛
  • 34、计及置信容量的光热电站储热容量优化配置,电力工程技术,2022-9-22,王湘艳,陈宁,王沛
  • 35、Phenomenon of White Mist in Pipelines Rapidly Filling with Water with Entrapped Air Pockets,JOURNAL OF HYDRAULIC ENGINEERING,2013-1-1,Zhou, Ling,Liu, Deyou,Zhou, Ling
  • 36、Optimization of a seawater once-through cooling system with variable speed pumps in fossil fuel power plants,INTERNATIONAL JOURNAL OF THERMAL SCIENCES,2015-6-1,Xia, Lin,Liu, Deyou,Liu, Deyou
  • 37、Optimal number of circulating water pumps in a nuclear power plant,NUCLEAR ENGINEERING AND DESIGN,2015-7-1,Xia, Lin,Liu, Deyou,Liu, Deyou
  • 38、CFD analysis of pre-cooling water spray system in natural draft dry cooling towers,UPPER("Applied Thermal Engineering"),2016-9-20,Xia, Lin,Gurgenci, Hal,Xia, Lin
  • 39、CFD Approach for Column Separation in Water Pipelines,UPPER("Journal of Hydraulic Engineering-ASCE"),2016-10-1,Wang, Huan,Zhou, Ling,Zhou, Ling
  • 40、Real-time dynamic analysis for complete loop of direct steam generation solar trough collector,UPPER("Energy Conversion and Management"),2016-11-9,Guo, Su,Liu, D. Y,Guo, Su
  • 41、Water Consumption Comparison between a Natural Draft Wet Cooling Tower and a Natural Draft Hybrid Cooling Tower – an Annual Simulation for Luoyang Conditions,UPPER("Heat Transfer Engineering"),2017-3-31,Xia, Lin,Li, Jishun,Xia, Lin
  • 42、Dynamic Behavior of Entrapped Air Pocket in a Water Filling Pipeline,JOURNAL OF HYDRAULIC ENGINEERING,2017-4-22,Zhou, Ling,Wang, Huan,Zhou, Ling
  • 43、A second-order Finite Volume Method for pipe flow with water column separation,UPPER("Journal of Hydro-environment Research"),2017-12-28,Zhou, Ling,Wang, Huan,Zhou, Ling
  • 44、Conceptual analogy for modelling entrapped air action in hydraulic systems,JOURNAL OF HYDRAULIC RESEARCH,2018-1-1,Zhou, Ling,Wang, Huan,Zhou, Ling
  • 45、Experimental investigation of the heat and mass transfer phenomena in a counterflow wet cooling tower with foam ceramic packing,ADVANCES IN MECHANICAL ENGINEERING,2018-1-26,Kong, Qing Jie,Zhao, Xue Yi,Zhao, Xue Yi
  • 46、Investigation on The Effect of Indium Composition on Ultrafast Carrier Dynamics in InGaN Alloys,JAPANESE JOURNAL OF APPLIED PHYSICS,2018-12-28,Zhang, Yi,Tang, Liangliang,Zhang, Yi
  • 47、Rapid air expulsion through an orifice in a vertical water pipe,JOURNAL OF HYDRAULIC RESEARCH,2019-5-8,Zhou, Ling,Pan, Tianwen,Zhou, Ling
  • 48、Primitive Form Godunov-Type Scheme for Two-Phase Homogeneous Water Hammer Flows,JOURNAL OF HYDRAULIC ENGINEERING,2020-5-8,Xue, Zijian,Zhou, Ling,Zhou, Ling
  • 49、Quantitative study on the mechanisms underlying the phonon bottleneck effect in InN/InGaN multiple quantum wells,UPPER("Applied Physics Letters"),2020-5-11,Zhang, Yi,Tang, Liangliang,Zhang, Yi
  • 50、Expulsion of Entrapped Air in a Rapidly Filling Horizontal Pipe,JOURNAL OF HYDRAULIC ENGINEERING,2020-7-1,Zhou, Ling,Cao, Yun,Zhou, Ling
  • 51、Phase change process of nanoparticle enhanced PCM in a heat storage including unsteady conduction,JOURNAL OF MOLECULAR LIQUIDS,2020-7-1,Shafee, Ahmad,Sheikholeslami, M,Babazadeh, Houman
  • 52、Thermal performance analysis of phase change materials (PCMs) embedded in gradient porous metal foams,UPPER("Applied Thermal Engineering"),2020-7-16,Ali Ghahremannezhad,Huijin Xu,Vafai, K
  • 53、Unsteady friction in transient vertical-pipe flow with trapped air,JOURNAL OF HYDRAULIC RESEARCH,2021-1-5,Zhou, Ling,Cao, Yun,Zhou, Ling
  • 54、Smoothed Particle Hydrodynamics with Unsteady Friction Model for Water Hammer Pipe Flow,JOURNAL OF HYDRAULIC ENGINEERING,2021-12-22,Pan, Tianwen,Zhou, Ling,Zhou, Ling
  • 55、腔式太阳能高温空气吸热器传热过程数值模拟,可再生能源,2010-7-20,刘德有,许昌,刘德有
  • 56、“双碳”背景下能源工程概预算课程思政建设实践与探讨,科教导刊(电子版),2023-11-20,新能源学院党委、新能源学院
  • 57、Hydrogen production in concentrated solar driven membrane reactors - A conception design and numerical analysis,CHEMICAL ENGINEERING JOURNAL,2025-01-15,新能源学院党委、新能源学院
  • 58、塔式太阳能熔盐吸热器传热特性及㶲分析,中国电机工程学报,EI,2019,王沛,河海大学,王沛,河海大学,39

科技成果

  • 1、一种基于三维CFD的液柱分离-弥合水锤的模拟方法,2015-11-25,水利水电学院党委、水利水电学院,发明,3
  • 2、基于Godunov格式的有压管道中水柱分离的模拟方法,2015-11-25,水利水电学院党委、水利水电学院,发明,3
  • 3、管道内水-气耦合瞬变流的模拟方法,2015-11-23,水利水电学院党委、水利水电学院,发明,3
  • 4、一种基于三维CFD的滞留气团热力学特性模拟方法,2017-01-09,水利水电学院党委、水利水电学院,发明,3
  • 5、基于有限体积法的输水管道中空穴流的模拟方法,2017-01-09,水利水电学院党委、水利水电学院,发明,3
  • 6、一种基于三维CFD的滞留气团热力学特性模拟方法,2017/11/24,水利水电学院,发明专利,3

开授课程

  • 1、传热学,本科生,176,32
  • 2、生产实习,本科生,76,32
  • 3、新能源专业课程导论,本科生,79,16
  • 4、流场数值模拟,本科生,38,24

教学成果

教学资源

社会职务

国际太阳能学会ISES会员

国际水利学会IAHR会员

江苏省可再生能源学会理事

国家自然科学基金通讯评审人

Journal of Porous Media》副主编

Energy Storage and Saving》青年编委

International Journal of Fluid Engineering》青年编委

荣誉及奖励

招生信息

博士:每年在新能源科学与工程招收博士研究生1~2人;

硕士:每年在可再生能源发电招收学硕;在清洁能源技术、动力工程招收专硕共6人。

职称: 教授 博士生导师

部门: 新能源学院党委、新能源学院

学科: 动力工程及工程热物理

教学部门: 新能源学院党委、新能源学院

电话: 13851884286

邮件: franciswp2012@163.com

办公地址: 西康路1号

通讯地址: 西康路1号

邮编: 210098

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