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姓 名 张燕平 性 别
职 称 教授 毕业学校 华中科技大学
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联系方式
邮 箱 zyp2817@hust.edu.cn
通讯地址 湖北省武汉市amjs澳金沙门线路首页
个人资料简介
张燕平,教授,博导。主要从事热力系统节能、优化与灵活性方面的教学与科研工作。主编《热力发电厂》国家级规划教材,参加编写《能源与动力装置基础》国家级规划教材、《太阳能热发电原理及技术》专著。获得国家级教学成果奖1项、省级教学成果奖2项。主持国家国际科技合作专项及多项横向合作项目、参与2项973计划项目及1项国家重点研发计划项目。发表学术论文60余篇,其中SCI、EI收录30余篇。授权美国发明专利1项、中国发明专利9项。

教育及工作经历

    2024.01-至今        amjs澳金沙门线路首页    教授
    2006.07-2023.12    amjs澳金沙门线路首页    副教授
    2000.09-2006.06    amjs澳金沙门线路首页    博士
    1995.09-1998.06    华中理工大学动力系                硕士
    1988.09-1992.06    重庆大学热力工程系                学士

研究方向

    (1)热力系统优化与灵活性
    (2)太阳能高温集热器传热优化
    (3)熔盐蓄热系统性能分析

科研项目

    (1)聚光太阳能增效耦合蓄热热解的亚非农林废弃物制备高值产品联合研发,国家重点研发计划项目,2020-2023;
    (2)湖北省技术创新专项重大项目,“超临界CO2太阳能腔体吸热器的研发与示范”,2019-2020;
    (3)国家国际科技合作专项,“太阳能梯级集热发电系统关键技术合作研究”,2014-2018;
    (4)国家重点基础研究发展计划(973)课题 “燃煤发电系统多过程耦合匹配与全工况能耗、污染物协同控制”,2015-2019;
    (5)国家高技术研究发展计划(863计划)课题 “200kW级有机朗肯循环太阳能热发电技术",2012-2015;
    (6)国家重点基础研究发展计划(973计划)课题“大型燃煤发电机组变工况特性及能耗控制方法”,2009-2013;

代表性论文与专利

    代表性论文
    [1]Yuming Ouyang, Yanghai Li, Yanping Zhang*. Numerical research on the thermal characteristics and mechanical properties of a molten-salt single tank storage system Journal of Energy Storage, 2024,80: 110328
    [2]Dalong Zhu, Yanghai Li, Yuxuan Chen, Chongzhe Zou*, Yanping Zhang*. Numerical study on the stress and thermal performance of a supercritical CO2 solar conical cavity receiver. Solar Energy 267 (2024) 112252.
    [3]余上元,王鼎,胡松,张燕平*. 涡旋式太阳能生物质焦颗粒吸热器设计及传热性能分析.中国电机工程学报2023,43(14): 5502-5511.
    [4]王渊静,胡松,张燕平*. 光热电站熔融盐储热罐冷却速率研究,中国电机工程学报,2023,43(6):2130-2141.
    [5]岳松,陈宇轩,肖虎,王鼎,李明,张燕平*. 熔盐储罐预热过程优化研究. 太阳能学报,2022年10月,43(10):113-118.
    [6]Yuanjing Wang, Jinan Liu, Cheng Zhang, Song Hu, Yanping Zhang*, Heat storage design and performance analysis of a parabolic trough thermal power generation system based on sectional heating collection, Journal of Energy Storage, Volume 51, 2022, 104572
    [7]Yuxuan Chen, Ding Wang, Chongzhe Zou, Wei Gao, Yanping Zhang*, Thermal performance and thermal stress analysis of a supercritical CO2 solar conical receiver under different flow directions, Energy, Volume 246, 2022, 123344.
    [8]Weiguang Zhou, Yanping Zhang*, Mathieu Salanne*, Effects of fluoride salt addition to the physico-chemical properties of the MgCl2–NaCl–KCl heat transfer fluid: A molecular dynamics study, Solar Energy Materials and Solar Cells, Volume 239, 2022, 111649.
    [9]    Yuxuan Chen, Yanping Zhang*, Ding Wang, Song Hu, Xiaohong Huang. Effects of design parameters on fatigue–creep damage of tubular supercritical carbon dioxide power tower receivers. Renewable Energy, 2021, 176(2021)520-532
    [10]Zhang Yanping, Chen Yuxuan , Zou Chongzhe * , Xiao Hu, Quentin Falcoz, Pierre Neveu, Zhang Cheng, Huang Xiaohong. Experimental investigation on heat-transfer characteristics of a cylindrical cavity receiver with pressurized air in helical pipe. Renewable Energy 2021,163: 320-330
    [11]Wang Yuanjing, Zhang Cheng, Zhang Yanping *, Huang Xiaohong. Performance analysis of an improved 30 MW parabolic trough solar thermal power plant. Energy ,2020, 213: 118862
    [12]Zhang Yanping, Xiao Hu, Zou Chongzhe*, Quentin Falcoz, Pierre Neveu. Combined optics and heat transfer numerical model of a solar conical receiver with built-in helical pipe. Energy. 2020, 193: 116775.
    [13]Hu XIAO, Yanping ZHANG*, Cong YOU, Chongzhe ZOU, Quentin FALCOZ. Effects of critical geometric parameters on the optical performance of a conical cavity receiver[J]. Frontiers in Energy, 2019, 13(4): 673 -683.
    [14]Chongzhe ZOU, Huayi FENG, Yanping ZHANG*, Quentin FALCOZ, Cheng ZHANG, Wei GAO. Geometric optimization model for the solar cavity receiver with helical pipe at different solar radiation. Frontiers in Energy, 2019,13(2): 284-295.
    [15]SaeedShafiei Kaleibari*, ZhangYanping, StéphaneAbanades. Solar-driven high temperature hydrogen production via integrated spectrally split concentrated photovoltaics (SSCPV) and solar power tower. International Journal of Hydrogen Energy, 2019, 44(5): 2519-2532.
    [16]Shujin Yang, Yanping Zhang, and Li Chen. Molecular dynamics study on the effect of surface wettability on the performance of water vapor condensation. AIP Advances 9, 025031-12 (2019).
    [17]Pengcheng Xiao, Yanping Zhang, Yuanjing Wang, Jizhou Wang. Analysis of an improved economizer system for active control of the coal-fired boiler flue gas temperature. Energy, 2019, 170: 185-198.
    [18]Zihao Yang,Yanping Zhang,Wei Gao. Improved Model of an Intermediate Point Enthalpy Control System for Enhancing Boiler Efficiency,Journal of Energy Resources Technology,FEBRUARY 2019, Vol. 141 / 022001-11. [DOI: 10.1115/1.4041286].
    [19]Yanping Zhang, Jizhou Wang, Shujin Yang, Wei Gao, An all-condition simulation model of the steam turbine system for a 600 MW generation unit, Journal of the Energy Institute, 2018, 91(2): 279-288.
    [20]Chongzhe Zou, Yanping Zhang,*, Huayi Feng, Quentin Falcoz, Pierre Neveu, Wei Gao, Cheng Zhang, Effects of geometric parameters on thermal performance for a cylindrical solar receiver using a 3D numerical model, Energy Conversion and Management, 2017, 149:293-302.
    [21]Zhang, Cheng, Zhang, Yanping, Lei, Xiaolin, & Gao, Wei. Design and comparison of solar thermal oilfield steam production system plans. Transactions of the ASME , Journal of Solar Energy Engineering. 2017,Vol. 139 / 044502-1
    [22]Cheng Zhang, Yanping Zhang, Inmaculada Arauzo, Wei Gao, Chongzhe Zou. Cascade system using both trough system and dish system for power generation. Energy Conversion and Management,2017,142:494–503.
    [23]Chongzhe Zou, Yanping Zhang Quentin Falcoz, Pierre Neveu, Cheng Zhang, Weicheng Shu and Shuhong Huang. Design and optimization of a high-temperature cavity receiver for a solar energy cascade utilization system. Renewable Energy, 2017, vol. 103, issue C, pages 478-489.
    [24]Jizhou WANG, Yanping ZHANG, Jianlan LI, Pengcheng Xiao, Zhaoyin ZHAI, Shuhong HUANG. A New Approach for Model-Based Monitoring of Turbine Heat Rate. Journal of Energy Resources Technology, 2017, 139-012004-1
    [25]Wang Jizhou, Zhang Yanping, Li Yu, Huang Shuhong. A Non-Equal Fragment Model of a Water-Wall in a Supercritical Boiler. Journal of the Energy Institute. 2015,88(2) :143-150.
    [26]李晓, 张燕平, 朱志成,黄树红. 10kW有机工质向心透平气动设计及优化研究[J]. 汽轮机技术, 2018(1):11-14+36.
    [27]冯靖伊,张燕平,高 伟. 水蒸气核化及单体生长过程的分子动力学研究. 动力工程学报,2017,37(11):912-917
    [28]潘晓军,张燕平,陈曦等. 水平基底上薄膜流体的数学模型及其数值模拟[J].工程力学,2018,35(06):24-32+41.
    [29]岳松,张奥,张燕平,朱志成,黄树红. 中高温太阳能ORC系统向心透平气动设计研究. 机械工程学报,2015,51(4):155-160.
    [30]Longzhou Qi, Shuhong Huang, Yanping Zhang, Xing Xu, Yu Li, Yong Wang. A compartmental model for supercritical coal-fired boiler systems. Journal of Energy Resources Technology. Transactions of the ASME. 2014,136(6):1602-7.
    [31]林琳,张燕平,黄树红.600MW燃煤发电机组太阳能协同发电的变工况性能分析,动力工程学报,2013,33(10),58-65.
    [32]Wang Jizhou, Zhang Yanping, Li Yu and Huang Shuhong . A Multizone Model of an Economizer in a 600 MW Boiler Unit. Journal of Energy Resources Technology, Transactions of the ASME. 2012, 134(4):1601-1606.
    [33]王际洲,张燕平,黄树红. 省煤器参数分布特性的分层模型分析. 中国电机工程学报,2013,33(8): 30-35.
    [34]Zhang YanPing, Huang ShuHong, Hou JingHong, Shen Tao and Liu Wei. Continuous wavelet grey moment approach for vibration analysis of rotating machinery. Mechanical Systems and Signal Processing, 2006, 20(5), 1202-1220

    授权发明专利
    1.    Yanping Zhang*, Cheng Zhang, Shuhong Huang. COMBINED SOLAR THERMAL POWER GENERATION SYSTEM. 美国发明专利,专利号Patent No.:10267296, 2019.4.23.
    2.    张燕平,朱志成,岳松,张奥,黄树红. 一种有机工质向心透平发电装置,发明专利,专利号:ZL201410697167.8
    3.    张燕平,王际洲,李建兰,黄树红.一种汽轮机回热系统的全工况仿真系统,发明专利,专利号,201410233948.1
    4.    张燕平,潘晓军,黄树红,李建兰. 一种碟式太阳能集热利用系统,发明专利,申请号:ZL2015104944789。
    5.    张燕平,张成,黄树红.一种采用换热系统对被加热流体进行分阶段加热的流量控制方法,发明专利,专利号:ZL201610805604.2.
    6.    张燕平,陈曦,高伟. 一种透平、凝汽器和循环水泵三合一的能量利用装置,发明专利,专利号:ZL201710459106.1
    7.    张燕平,朱志成,黄树红,岳松,张奥. 一种用于有机工质向心透平的轴端密封装置,发明专利,专利号:ZL2014104432127.
    8.    张燕平,王渊静,张成,刘易飞,王鼎。一种分区域的槽式太阳能热发电系统集热场设计方法。专利号:ZL.2020107394372.
    9.    张燕平, 张宇超,陈曦。一种H型垂直轴风力机能量缓冲装置。专利号:ZL 201810815795.X,
    10.    张燕平;陈宇轩;王鼎;黄晓宏;胡松.一种太阳能高温吸热器疲劳-蠕变损伤评估方法及系统.专利号:ZL 2021 1 0737969.7.

所获荣誉和奖励

    (1)国家级教学成果二等奖,融通教学-科研-思政的“四新三高二化”能源动力专业创新人才培养模式,2023.
    (2)湖北省教学成果特等奖,融通教学-科研-思政的能源动力工程专业创新型人才培养模式,2023.
    (3)湖北省教学成果二等奖,三位一体新能源科学与工程学科创新人才培养实践教学体系,2018.
    (4)2016-2017学年度华中科技大学优秀教师班主任,2017.
    (5)华中科技大学校教学质量优秀奖二等奖,2019,2017,2016,2013,2011.