张强强
  • 姓名: 张强强
  • 性别: 男
  • 职称: 副研究员
  • 职务: 
  • 学历: 博士研究生
  • 电话: 
  • 传真: 
  • 电子邮件: zhangqiangqiang@mail.iee.ac.cn
  • 所属部门: 
  • 通讯地址: 

    简  历:

  • 09/2005–06/2009  同济大学获得学士学位

    09/2009-06/2014  中国科学院电工研究所获得博士学位

    07/2014–12/2018  中国科学院电工研究所助理研究员

    01/2019–至今 中国科学院电工研究所副研究员

    社会任职:

    研究方向:

  • 1. 热化学与电化学耦合制氢;

    2. 高效光热转换;

    3. 多能互补系统

    承担科研项目情况:

  • [1] 直接集成式太阳能高温电解制氢的光---电化学耦合机理(编号:52176209);国家自然科学基金(面上582022.1-2025.12,课题负责人;

    [2] 超高焦比太阳炉高温太阳能制氢技术中乌国际合作研究(编号:182111KYSB20200021),国际伙伴计划(对外合作重点项目),120万,2021.01-2023.12,项目负责人

    [3] 聚光雾化换热与高温电解制氢反应器的协同运行特性研究(编号:3222049),北京市自然科学基金(面上),20万,2022.1-2024.12,课题负责人;

    [4] 熔融盐吸热器热性能的动态响应机理及非稳态测试方法研究(编号:51606184);国家自然科学基金(青年),28.5万,2017.1-2019.12,课题负责人;

    [5] 高强度非均匀能流分布下熔融盐腔式吸热器的光热耦合机制研究(编号:3164052);北京市自然科学基金(青年),8万,2016.1-2017.6,课题负责人;

    [6] THIRD ADDENDUM TO THE COLLABORATIVE RESEARCH AGREEMENT ON CONCENTRATED SOLAR POWERRELATING TO THE RESEARCH WORK IN 2017;法国电力公司国际合作项目,11.45万欧元2017.1-2018.12子课题负责人

    [7] MW级熔融盐吸热储热关键部件和系统研发(编号:D121100001012001);北京市科技计划,348万,2012.01-2016.08,课题骨干;

    [8] 熔融盐储热系统运行机理及能量转换控制技术研究,国家电网课题,100万,2015.01-2015.12,课题骨干;

    [9] 含熔融盐储热系统的塔式光热电站多模式多目标运行控制策略研究,国家电网课题,35万,2016.01-2016.12课题骨干;

    电站聚光吸热系统研究(编号:2013AA050502);国家高技术研究发展计划(863计划),380万,2013.01-2016.12

    代表论著:

  • [1] Qiangqiang Zhang, Xin Li*. The effect of spray on the radiation transfer of concentrated solar irradiation in a novel designed solar steam generator. Renewable Energy, 206(2023), 13-23;

    [2] Jiani Wu, Xin Li, Qiangqiang Zhang, Chunlong Zhuang*, Zheshao Chang*. Thermal performance analysis and optimization of cascaded packed bed latent heat storage tank. Journal of Renewable and Sustainable Energy, 14(2022), 064101;

    [3] Qiangqiang Zhang*, Zheshao Chang, Mingkai Fu, Fuliang Nie, Ting Ren, Xin Li*. Thermal performance analysis of an integrated solar reactor using solid oxide electrolysis cells (SOEC) for hydrogen production. Energy Conversion and Management, 264(2022), 115762;??

    [4] Qiangqiang Zhang, Zhifeng Wang, Xin Li, Zhi Li, Jun Li, Hong Liu, Yi Ruan, Li Xu*. Preliminary discussion on test method for time constant of molten salt receiver based on two-lumped-elements model. Solar Energy, 195(2020), 552-564;

    [5] Qiangqiang Zhang, Zhifeng Wang, Xin Li, Zhi Li, Jun Li, Hong Liu, Yi Ruan, Li Xu*. Preliminary comparison of two potential test methods for molten salt receiver under uniformly and Gaussian-shape distributed incident power. Solar Energy, 183-1(2019), 532-543;

    [6] Qiangqiang Zhang*, Xin Li, Zhifeng Wang, Zhi Li, Hong Liu, Jun Li. Cavity receiver thermal performance analysis based on total heat loss coefficient and efficiency factor. International journal of energy research, 42(2018), 2284-2289;

    [7] Qiangqiang Zhang*, Xin Li, Zhifeng Wang, Zhi Li, Hong Liu. Function testing and failure analysis of control system for molten salt receiver system. Renewable Energy, 115(2018), 260-268;

    [8] Zhi Li, Xin Li, Qiangqiang Zhang, Zhifeng Wang*, Zhirong Liao, Chun Chang. Badaling 1MWt molten salt tower power plant. AIP conference Proceedings, 1805(2017), 030033, 1-10;

    [9] Yang Zijiang*, Lu Jiahui, Zhang Qiangqiang, Li Zhi, Li Xin, Wang Zhifeng. Dynamic modeling of Badaling molten salt tower CSP pilot plant. AIP Conference Proceedings, 1850(2017), 160028, 1-10;

    [10] Zheshao Chang, Xin Li, Chao Xu, Chun Chang, Zhifeng Wang, Qiangqiang Zhang, Zhirong Liao, Qing Li. The effect of the physical boundary conditions on the thermal performance of molten salt thermocline tank. Renewable Energy, 96(2016), 190-202;

    [11] Chun Chang*, Chao Xu, Zhiyong Wu, Xin Li, Qiangqiang Zhang, Zhifeng Wang. Heat Transfer Enhancement and Performance of Solar Thermal Absorber Tubes with Circumferentially Non-uniform Heat Flux. Energy procedia, 69(2015) 320-327;

    [12] Qiangqiang Zhang, Xin Li, Zhifeng Wang, Jinbai Zhang, Baligh El-Hefni, Li Xu*. Modeling and simulation of a molten salt cavity receiver with Dymola. Energy, 93 (2015) 1373-1384;

    [13] Qiangqiang Zhang*, Xin Li, Chun Chang, Zhirong Liao, Zhifeng Wang, Qiang Yu. A fast view-factor model on reflection loss calculation of cavity receiver. Energy Procedia, 69 (2015) 593-599;

    [14] Qiangqiang Zhang, Xin Li*, Chun Chang, Hong Liu, Zhifeng Wang. Transient analysis of a molten salt cavity receiver. Energy Procedia, 49 (2014) 599-606;

    [15] Qiangqiang Zhang, Xin Li*, Zhifeng Wang, Chun Chang, Hong Liu. Experimental and theoretical analysis of a dynamic test method for molten salt cavity receiver. Renewable Energy, 50 (2013) 214-221;

    [16] Qiangqiang Zhang, Xin Li*, Chun Chang, Zhifeng Wang, Hong Liu. An experimental study: Thermal performance of molten salt cavity receiver. Applied Thermal Engineering, 50 (2013) 334-341;

     

    专利申请:

    获奖及荣誉:

  • 1. 第一届中法团队合作创新奖

    2. 中国科学院院长奖(优秀奖)