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“天津市131三层次人才”王坤

 

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王坤,博士,副教授,硕士生/博士生导师,能源与动力工程系副主任,河北省热科学与能源清洁利用技术重点实验室副主任。


一、个人简介

1.教育背景

2007.09-2011.07:华北电力大学,热能与动力工程,获工学学士学位

2011.09-2018.03:西安交通大学,动力工程与工程热物理,获工学博士学位,期间前往美国亚利桑那大学联合培养

2.工作经历

2018.06-至今:河北工业大学,能源与环境工程学院,讲师、副教授,硕导、博导

3.荣誉称呼

2018年:河北工业大学元光学者启航A

2018年:河北省教育厅青年拔尖人才

2019年:天津市“131”创新型人才培养工程第三层次

2020年:河北省“三三三人才工程”第三层次

2020年:天津市青年人才托举工程

2021年:河北省冀青之星

2021年:陕西省优秀博士学位论文

4.研究方向

1)太阳能热发电中的工程热物理问题:镜场优化、吸热器创新构型、热力循环构建优化;

2)强化传热理论与技术;

3)高效储热机理与技术;

4)高功率固体激光器的热管理。


二、主要科研成果

1.近年来主持或参与的国家/省部级科研项目(不包括企业委托)

1)国家自然科学基金青年项目,2020-2022,主持

2)河北省自然科学基金青年项目,2019-2021,主持

3)天津市自然科学基金青年项目,2019-2021,主持

4)河北省高等学校青年拔尖人才计划项目,2019-2021,主持

5)企业委托横向课题,主持

6)国家重点研发计划,2019-2023,主研

7)国家自然科学基金重点项目,2016-2019,主研

2.发明专利

[1] 何雅玲, 王坤, 李明佳, 程泽东, 崔福庆, 郑章靖. 一种太阳能聚光集热器及其设计方法, 发明专利,中国,授权日期:2015.8.5.

3.获奖

1)中国工程热物理学会传热传质分会青年优秀论文奖2015

2)国家太阳能光热联盟研究生论坛优秀论文奖2016

3)中国百篇最具影响国际学术论文奖(2017

4)河北工业大学教师教学创新大赛二等奖(2020

5)西安交通大学优秀博士学位论文(2020

6)陕西省优秀博士学位论文(2021

2.学术论文(15篇代表作)

[1] Wang Kun, He Ya-Ling*. Thermodynamic analysis and optimization of a molten salt solar power tower integrated with a recompression supercritical CO2 Brayton cycle based on integrated modeling. Energy Conversion and Management, 2017, 135(1):336-350.(中国百篇最具影响国际学术论文,ESI高被引论文,ESI热点论文)

[2] Wang Kun, Zhu Han-Hui, He Ya-Ling*. Integration between supercritical CO2 Brayton cycles and molten salt solar power towers: A review and a comprehensive comparison of different cycle layouts.Applied Energy, 2017, 195:819-836.ESI高被引论文,ESI热点论文)

[3] Wang Kun, Li Ming-Jia*, Guo Jia-Qi, Li Pei-Wen, Liu Zan-Bin. A systematic comparison of different S-CO2 Brayton cycle layouts based on multi-objective optimization for applications in solar power tower plants. Applied Energy, 2018, 212: 109-121.ESI高被引论文)

[4] Wang Kun, He Ya-Ling*, Qiu Y, Zhang YW. A novel integrated simulation approach couples MCRT and Gebhart methods to simulate solar radiation transfer in a solar power tower system with a cavity receiver. Renewable Energy, 2016, 89: 93-107. ESI高被引论文)

[5] Wang Kun, He Ya-Ling*, Xue Xiao-Dai, Du Bao-Cun. Multi-objective optimization of the aiming strategy for the solar power tower with a cavity receiver by using the non-dominated sorting genetic algorithm. Applied Energy, 2017, 205: 399-416.

[6] Wang Kun, He Ya-Ling, Li Peiwen, Li Ming-Jing, Tao Wen-Quan. Multi-objective optimization of the solar absorptivity distribution inside a cavity solar receiver for solar power towers. Solar Energy, 2017, 158: 247-258.

[7] Wang Kun, He Ya-Ling*, Cheng Ze-Dong. A design method and numerical study for a new type parabolic trough solar collector with uniform solar flux distribution. Sci. China Technol. Sci, 2014, 57(3): 531-540.(封面文章,期刊高影响力论文)

[8] Min Chun-Hua, Yang Xu-Guang, Wang Kun*, Yuan Yong-Wan, Xie Li-Yao. An inverse optimization of convection heat transfer in rectangle channels with ribbed surface based on the extremum principle of entransy dissipation. International Journal of Heat and Mass Transfer, 2019, 130: 722-732.

[9] Wang Kun, Li Ming-Jia*, Zhang Ze-Dong, et al. Evaluation of alternative eutectic salt as heat transfer fluid for solar power tower coupling a supercritical CO2 Brayton cycle from the viewpoint of system-level analysis[J]. Journal of Cleaner Production, 2021, 279: 123472. ESI高被引论文

[10] Wang Kun*, Zhang Zhen-Dong, Li Ming-Jia, et al. A coupled optical-thermal-fluid-mechanical analysis of parabolic trough solar receivers using supercritical CO2 as heat transfer fluid[J]. Applied Thermal Engineering, 2021,183116154.

[11] Wang Kun*, Zhang Z D, Zhang X Y, et al. Buoyancy effects on convective heat transfer of supercritical CO2 and thermal stress in parabolic trough receivers under non-uniform solar flux distribution[J]. International Journal of Heat and Mass Transfer, 2021, 175: 121130.

[13] Wang Kun*, Jia P S, Zhang Y, et al. Thermal-fluid-mechanical analysis of tubular solar receiver panels using supercritical CO2 as heat transfer fluid under non-uniform solar flux distribution[J]. Solar Energy, 2021, 223: 72-86.

[14] Min C, Li H, Gao X, Wang Kun*, et al. Numerical investigation of convective heat transfer enhancement by a combination of vortex generator and in-tube inserts[J]. International Communications in Heat and Mass Transfer, 2021, 127: 105490.

[15] Bai Zhen-Xu, Zhang Zhan-Peng, Wang Kun*, et al. Comprehensive thermal analysis of diamond in a high-power Raman cavity based on FVM-FEM coupled Method[J]. Nanomaterials, 2021, 11(6): 1572.


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