徐超
姓名:徐超
职称:教授、博导
职务:能源电力创新研究院执行副院长
院系:能源动力与机械工程学院
研究方向:
太阳能热利用,储热,电解水制氢,热化学制氢
凯发k8娱乐的联系方式:
电话:010-61773934
邮箱:mechxu@ncepu.edu.cn
地址:教四c205
个人简介及主要荣誉称号:
徐超,男,1980年5月生,山东枣庄人。1998年考入西安交通大学工程热物理专业;2004年硕士毕业后去往香港科技大学攻读博士学位,并于2008-2010年于美国康涅狄格大学做博士后。回国后,于中科院电工研究所聘为副教授,2013年留华北电力大学任教,聘任教授至今。目前担任中国工程热物理学会传热传质分会青年工作委员会委员、中国可再生能源学会青年工作委员会委员、全国太阳能光热发电标准化技术委员会委员,并担任了sci期刊《science bulletin》和《iet renewable power generation》的副主编,sci期刊《energies》和ei核心期刊《frontiers in heat andass transfer》的编委,获得了《science bulletin》2016年度优秀副主编荣誉。
长期从事太阳能转化、存储及燃料电池等领域中涉及的多场耦合复杂传输现象中的关键科学问题开展基础和应用基础研究。在国际学术期刊上总计发表sci学术论文81篇,获国家授权发明专利7项,个人h-index为34。作为项目或课题负责人,先后主持了国家级项目6项,作为五名学术骨干之一参加了国家自然科学基金委创新群体项目。
教学与人才培养情况:
1.教学课程:
传热学,2013年起至今,64学时,60人
高等传热学,2016年起至今,32学时,120人
2.学生培养(含合作指导)
毕业博士:张茂龙、韩雪
毕业硕士:刘佳佳、于子博、马小琨、谢云云、周逸挺、许超、潘信宇、袁梦迪、蒋大浪、王泉、张翔、仲华、张哲旸、杨宇
作为2016级博士班班主任,带班
3.学生获得荣誉
任云秀,2019国家奖学金获得(博士),2017届博士,导师:徐超
李朋达,2019国家奖学金获得(硕士),2018届硕士,导师:徐超
主要科研项目情况:
[1]国家自然科学基金委员会面上项目,水合盐复合材料热化学储热性能强化机理与多尺度传热传质的关联规律,2019-01至2022-12,60万元
[2]国家自然科学基金委员会创新群体项目(核心骨干),能量传递转化与高效动力系统,2018-01至2023-12,1200万元
[3]中共中央组织部,**青年**项目,2018-01至2020-12,170万元
[4]国家科技部重点研发计划子课题,10mw级先进压缩空气储能技术研发与示范,2017-07至2021-06,101万元
[5]国家自然科学基金委员会**项目,多场耦合热质传输,2016-01至2018-12,150万元
[6]国家自然科学基金委员会青年项目,熔融盐斜温层混合储热系统中的流动与换热过程及其耦合机理研究,2012-01至2014-12,26万元
[7]中国科学院,青年创新促进会人才项目,2012-01至2013-05,20万元
[8]国家教育部,留学回国人员科研启动基金,使用相变填充颗粒的熔融盐斜温层混合储热系统传热特性研究,2012-06至2015-12,3万元
[9]国家科技部973项目课题,大规模太阳能热发电系统集成及调控策略,2010-01至2014-08,603万元
主要获奖情况:
[1] 2017年中组部“**”青年**
[2] 2016年获国家优秀青年科学基金项目资助
[3] 2014年获中国工程热物理学会“吴仲华” 优秀青年学者奖
[4] 2015年获《applied energy》高被引论文奖
[5] 2011年评选为中科院“青年创新促进会人才”
代表性论著:
2020年文章
[1] tieying wang; tianying zhang; guizhi xu; chao xu*; zhirong liao; feng ye; a new low-cost high-temperature shape-stable phase change material based on coal fly ash and k2co3, solar energy materials and solar cells, 2020, 206: 0-110328. (sci)
[2] feng ye; zhiming wang; chao xu*; mengdi yuan; peng liu; woochul yang;guicheng liu*; mechanism and kinetic study of pulse electrodeposition processof pt/c catalysts for fuel cells, renewable energy, 2020, 145: 514-520. (sci)
[3] mostafa m. abd el-samie; xing ju*; zheyang zhang; saad abdueljabbaradam; xinyu pan; chao xu; three-dimensional numerical investigation of a hybridlow concentrated photovoltaic/thermal system, energy, 2020, 190: 0-116436. (sci)
2019年文章
[4] quan wang; yunyun xie; bo ding; guoliang yu; feng ye; chao xu*; structure and hydration state characterizations of mgso4-zeolite 13x compositematerials for long-term thermochemical heat storage, solar energy materialsand solar cells, 2019, 200: 0-110047. (sci)
[5] yuan, mengdi; ren, yunxiu; xu, chao*; ye, feng; du, xiaoze; characterization and stability study of a form-stable erythritol/expanded graphitecomposite phase change material for thermal energy storage, renewable energy,2019, 136: 211-222. (sci)
[6] han, xue; pan, xinyu; yang, hao; xu, chao*; ju, xing; du, xiaoze; dynamic output characteristics of a photovoltaic-wind-concentrating solar powerhybrid system integrating an electric heating device, energy conversion andmanagement, 2019, 193: 86-98. (sci)
[7] ju, xing; pan, xinyu; zhang, zheyang; xu, chao*; wei, gaosheng; thermal and electrical performance of the dense-array concentrating photovoltaic(da-cpv) system under non-uniform illumination, applied energy, 2019, 250:904-915. (sci)
[8] ren, yunxiu; li, pengda; yuan, mengdi; ye, feng; xu, chao*; liu,zhijian; effect of the fabrication process on the thermophysical properties ofca(no3)2–nano3/expanded graphite phase change material composites , solarenergy materials and solar cells, 2019, 200: 0-110005. (sci)
[9] xu, chao*; xie, yunyun; liao, zhirong; ren, yunxiu; ye, feng; numerical study on the desorption process of a thermochemical reactor filled with mgcl2·6h2o for seasonal heat storage, applied thermal engineering, 2019, 146: 785-794. (sci)
2018年文章
[10] liao, zhirong; xu, chao; xu, chao*; ju, xing; gao, feng; wei, gaosheng; cyclic performance analysis of a high temperature flat plate thermal energystorage unit with phase change material, applied thermal engineering, 2018, 144: 1126-1136.
[11] zhirong liao; chao xu*; yunxiu ren; feng gao; xing ju; xiaoze du; thermal analysis of a conceptual loop heat pipe for solar central receivers, energy, 2018, 158: 709-718. (sci)
[12] abd el-samie, mostafa m.; ju, xing; xu, chao*; du, xiaoze; zhu, qunzhi; numerical study of a photovoltaic/thermal hybrid system with nanofluid basedspectral beam filters, energy conversion and management, 2018, 174: 686-704. (sci)
[13] ren yunxiu; xu chao*; yuan mengdi; ye feng; ju xing; du xiaoze; ca(no3)2-nano3/expanded graphite composite as a novel shape-stable phase changematerial for mid- to high-temperature thermal energy storage , energyconversion and management, 2018, 163: 50-58. (sci)
[14] feng ye; chao xu*; guicheng liu*; mengdi yuan; zhiming wang; xiaoze du;joong kee lee; effect of pulse electrodeposition parameters on electrocatalyticthe activity of methanol oxidation and morphology of pt/c catalyst for directmethanol fuel cells, energy conversion and management, 2018, 160: 85-92. (sci)
[15] xu chao*; yu zibo; xie yunyun; ren yunxiu; ye feng; ju xing; study ofthe hydration behavior of zeolite-mgso4 composites for long-term heat storage, applied thermal engineering, 2018, 129: 250-259. (sci)
[16] zhirong liao; guankun zhao; chao xu*; cenyu yang; yi jin*; xing ju;xiaoze du; efficiency analyses of high temperature thermal energy storagesystems of rocks only and rock-pcm capsule combination, solar energy, 2018, 162: 153-164. (sci)
2017年文章
[17] ye, feng; xu, chao*; liu, guicheng*; li, jianling; wang, xindong; du,xiaoze; lee, joong kee; a novel ptruir nanoclusters synthesized by selectivelyelectrodepositing ir on ptru as highly active bifunctional electrocatalysts foroxygen evolution and reduction , energy conversion and management, 2018, 155:182-187. (sci)
[19] ju, xing; xu, chao*; liao, zhirong; du, xiaoze; wei, gaosheng; wang,zhifeng; yang, yongping; a review of concentrated photovoltaic-thermal (cpvt)hybrid solar systems with waste heat recovery (whr) , science bulletin, 2017,62(20): 1388-1426. (sci)
[20] ju, xing; xu, chao*; hu, yangqing; han, xue; wei, gaosheng; du, xiaoze; a review on the development of photovoltaic/concentrated solar power (pv-csp)hybrid systems, solar energy materials and solar cells, 2017, 161: 305-327. (sci)
[21] liu, jiajia; xu, chao*; ju, xing; yang, bingbin; ren, yunxiu; du,xiaoze; numerical investigation on the heat transfer enhancement of a latentheat thermal energy storage system with bundled tube structures , appliedthermal engineering, 2017, 112: 820-831. (sci)
[22] ju, xing; xu, chao*; han, xue; du, xiaoze; wei, gaosheng; yang,yongping; a review of the concentrated photovoltaic/thermal (cpvt) hybrid solarsystems based on the spectral beam splitting technology , applied energy, 2017, 187: 534-563. (sci)
[23] han xue; zhao guankun; xu chao*; ju xing; du xiaoze; yang yongping; parametric analysis of a hybrid solar concentrating photovoltaic/concentratingsolar power (cpv/csp) system , applied energy, 2017, 189: 520-533. (sci)
[24] luo, yan; du, xiaoze; yang, lijun; xu, chao*; amjad, muhammad; impactsof solar multiple on the performance of direct steam generation solar powertower plant with integrated thermal storage , frontiers in energy, 2017, 11(4): 461-471. (sci)
[25] 廖志荣; 李鑫; 徐超*; 张强强; 常哲韶; 李志; 太阳能热发电站中熔融盐冻堵管道的熔化过程, 科学通报, 2017, 62(09): 960-966. (期刊论文)
2016年及以前的著作可参阅网络。
实验室:
课题组在能源动力与机械工程学院确立了太阳能高效转化与储能研究方向,形成了由1名教授、4名副教授和2名青年讲师构成的研究团队。课题组实验室主要位于教四c区105及c区420。已搭建或购置紫外/可见光/近红外光谱仪、高通量太阳能聚光模拟器、高温热化学转化及在线检测平台、同步热分析-红外光谱联用系统、气相色谱仪、电化学工作站、旋转圆盘电极等实验设备。