王沛
发布时间:2017-03-01   浏览次数:

 

 

王沛,男,江苏淮安人,19862月生,工学博士,副教授,硕导。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专业攻读硕士学位,并取得硕博连读资格。20129月至20141月,以国家公派联合培养博士生身份赴美国加州大学学习深造,获工学博士学位,同年任教于河海大学新能源科学与工程系。主要从事研究方向:计算流体力学、多孔介质输运理论与技术、流体流动与传热理论及其在风力发电和太阳能热发电中的应用。主讲《计算流体力学基础》,《传热学》,《风电场规划与设计》,《电站动力设备》等课程。发表能源领域顶级期刊SCI论文14篇,总被引百余次,h指数6


学术任职:


1. 国际太阳能学会会员;

2. 国际水利学会IAHR会员;

3. 江苏省能源学会会员;

4. 江苏省第三批双创博士计划

5. EnergyApplied EnergyRenewable EnergySolar EnergyInternational Journal of Heat and Mass TransferInternational Journal of Thermal Sciences、中国电机工程学报、太阳能学报等十余本国内外顶级期刊审稿人。


学习经历:


20049-20086月,河海大学热能与动力工程专业 获得工学学士学位;

20089-20109月,河海大学水利水电工程专业 硕博连读;

20109-201312月,河海大学水利水电工程专业 博士研究生;

20129-20141月,University of CaliforniaRiversideMechanical Engineering,国家公派联合培养博士生。

工作经历:

201312-20166月,河海大学能源与电气学院 讲师

20167月至今,河海大学能源与电气学院 副教授 硕士生导师


获奖:


2012年,河海大学博士研究生特等奖学金

2013年,教育部国家奖学金


学术论文:


[1] P. Wang, D.Y. Liu, C. Xu, Numerical study of heat transfer enhancement in the receiver tube of direct steam generation with parabolic trough by inserting metal foams, Applied Energy, 102(0) (2013) 449-460. (SCI中科院 Top期刊)

[2] P. Wang, K. Vafai, D.Y. Liu, 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, 65(10) (2014) 931-948. (SCI)

[3] P. Wang, K. Vafai, D.Y. Liu, C. Xu, Analysis of collimated irradiation under local thermal non-equilibrium condition in a packed bed, International Journal of Heat and Mass Transfer, 80(0) (2015) 789-801. (SCI中科院 Top期刊)

[4] P. Wang, D.Y. Liu, C.Xu, L.Zhou, L.Xia, Conjugate heat transfer modeling and asymmetric characteristic analysis of the heat collecting element for a parabolic trough collector, International Journal of Thermal Sciences, 101(0) (2016) 68-84. (SCI)

[5] P. Wang, D.Y. Liu, C. Xu, L. Xia, L. Zhou, A unified heat transfer model in a pressurized volumetric solar receivers, Renewable Energy, 99 (2016) 663-672.

[6] P. Wang, K. Vafai, D.Y. Liu, Analysis of the volumetric phenomenon in porous beds subject to irradiation, Numerical Heat Transfer, Part A: Applications,  (2016) 1-14.

[7] P. Wang, D.Y. Liu, Experimental and theoretical evaluation on the thermal performance of a windowed volumetric solar receiver, Energy (2016) 1-14. (SCI中科院 Top期刊)

[8] P. Wang. Analysis on the collimated irradiation in a solar air receiver with porous media 17TH IAHR International conference on cooling tower and heat exchanger. Brisbane, Australia, 2015

[9] P. Wang. Variable Porosity Effect on the Thermal Performance of a SiC Ceramic Absorber, 6TH International conference on porous media and its applications in science and engineering. Hawaii, USA, 2016

[10] P. Wang Application of Field Theory on the Non-uniform Thermal Boundary Condition Analysis on a Parabolic Trough Collectors, IEEE International Conference on Power and Renewable Energy, Shanghai, 2016

[11] L. Zhou, D.Y. Liu, B. Karney, P. Wang, Phenomenon of White Mist in Pipelines Rapidly Filling with Water with Entrapped Air Pockets, Journal of Hydraulic Engineering, ASCE, 139(10) (2013) 1041-1051. (SCI)

[12] L. Xia, D.Y. Liu, P. Wang, L. Zhou, Optimization of a seawater once-through cooling system with variable speed pumps in fossil fuel power plants, International Journal of Thermal Sciences, 91(0) (2015) 105-112. (SCI)

[13] L. Xia, D. Liu, L. Zhou, P. Wang, Optimal number of circulating water pumps in a nuclear power plant, Nuclear Engineering and Design, 288 (2015) 35-41. (SCI)

[14] Wang, H., L. Zhou, B. Karney, P. Wang. CFD Approach for Column Separation in Water Pipelines. Journal of Hydraulic Engineering, 142(10) (2016) (SCI).

[15] L. Xia, H. Gurgenci, D. Liu, P. Wang. CFD analysis of pre-cooling water spray system in natural draft dry cooling towers. Applied Thermal Engineering, 105, 1051-1060 (2016) (SCI).

[16] L. Xia, H. Gurgenci, P. Wang. Water Consumption Comparison between a Natural Draft Wet Cooling Tower and a Natural Draft Hybrid Cooling Tower – an Annual Simulation for Luoyang Conditions, Heat transfer Engineering (2016) (SCI).

[17] S. Guo, D. Liu, P. Wang. Real-time dynamic analysis for complete loop of direct steam generation solar trough collector. Energy Conversion & Management, 126, 573-580 (2016) (SCI).


科研项目:


1复杂地形风电场微观选址研究与软件平台开发,科技部中丹国际合作研究示范项目课题,(No. 2014DFG62530),学术骨干,2014-2016

2塔式太阳能热发电用空气吸热器辐射传热特性研究,中央高校基本科研业务费项目(No. 2013B14020011),负责人,2013-2015

3槽式金属泡沫强化传热高温真空集热管研究与开发,市级科技计划项目,(No. H201419),负责人,2015-2016

4高效规模化太阳能热发电的基础研究子课题槽式真空吸热管的传热特性及强化换热研究国家重点基础研究计划(973)子课题(No. 2010CB227102-1),学术骨干,2010-2014

5太阳能热发电技术及系统示范子课题兆瓦级太阳能塔式热发电仿真系统-吸热器仿真国家高技术研究发展计划(863)(No. 2006AA050106-4),学术骨干,2007-2011

6太阳能塔式电站用空气吸热器及系统研究国家高技术研究发展计划(863)子课题(No. 2007AA05Z445-2),学术骨干,2008-2011

7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,国家自然科学基金-青年基金,(No. 51509076),负责人,2016-2018

8多孔介质内气液两相流动的多尺度研究,江苏省自然科学基金-青年基金,(No. BK20150816),负责人,2015-2018

9太阳能槽式DSG发电内嵌金属泡沫的均化温度场机理与方法 江苏省自然科学基金-面上项目,学术骨干,2013-2016

10太阳能槽式热发电DSG吸热管测试台开发,江苏省科技支撑工业类项目,学术骨干,2013-2016.

11光热发电机理模型研究,国网电力科学研究院重点项目,负责人,2015-1016

12槽式光热电站控制技术研究,国网电力科学研究院重点项目,负责人,2015-1016

13厂房环境控制研究,国网公司重点科技项目,负责人,2016-2017


研究生教育:


硕士:

(1)《太阳能多孔介质空气吸热器与燃气轮机耦合发电系统建模》,李旻

(2)《槽式太阳能集热管光热耦合传热特性与优化设计研究》,陈佳汝

(3)《大型水电站地下厂房通风空调系统的CFD与实验研究》,陈晨

博士:

(1) 《大孔隙多孔介质内自由表面流的流动结构与相变机理研究》,孔庆杰