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太阳能学报

清华大学硕士研究生导师简介:张寅平

姓 名:
张寅平
性别:
出生年月:
工作单位:
清华大学
所在院系:
建筑学院
职称:
教授
行政职务:
招生专业:
0建筑技术科学
研究领域:
室内空气品质、相变贮能、室内环境传热传质
是否兼职:
指导博士生总数:
指导硕士生总数:
目前博士生数:
目前硕士生数:
个人简介
学历情况:就读于中国科技大学工程热物理系获理学学士(1985)、工学硕士(1988)、工学博士(1991)工作经历:2000.1-今 清华大学建筑学院 博士生导师 副所长1999.7-今 清华大学建筑学院 教授 副所长 清华大学热能工程系 副教授,教授 中国科技大学 热科学和能源工程系 副教授 系副主任 中国科技大学 热科学和能源工程系 讲师国外研究经历: Denmark Techinique University, Denmark, 访问教授-12 Tokyo University, Japan, 客座研究?1995.5 Suttgart University, Germany,高级访问学者。研究领域:室内空气品质,相变贮能,室内环境传热传质开设课程:热质交换原理和应用,室内空气品质检测、评价和控制,暖通空调新进展学术兼职《Inter. J. of Transfort Phenomena》 编委(2002-今)《Science Bulletin》、《科学通报》编委(2003-今)《太阳能学报》编委(2001-今)《太阳能》编委(2001-今)《Building and Environment》(Special issue) 客座编辑(2006)《Facilites》(Special issue) 客座编辑(2006)参加学术团体的情况中国建筑物理学会理事(2004-今)中国室内空气环境学会专业委员会委员(2004-今)ISES member(国际太阳能学会会员)ASHRAE member(美国暖通空调制冷工程师学会会员)A&WMA member(美国空气和废弃物处理学会会员)
获得奖项
教育部推荐国家自然科学二等奖(排名第1)清华大学学术新人奖(2003)教育部优秀青年教师资助计划资助(2001)中国科学技术大学优秀教材二等奖(1998)获全国霍英东青年教师科研奖(1994)
著作及论文

上一篇:单面太阳能电池板即将过时!科学家提出新的热力
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出版编著4本,在国际重要学术期刊和国内核心期刊上发表学术论文百余篇,国际会议论文50余篇,其中40余篇被SCI摘引, 70余篇被EI摘引,20余篇被ISTP摘引代表论著、论文:[20] 朱颖心,张寅平,李先庭,秦佑国,建筑环境学(第二版),建筑工业出版社,2005.7。张寅平,第五章 室内空气品质。[19] 张寅平、胡汉平、孔祥冬、苏跃红,相变贮能--理论和应用,中国科学技术大学出版社, 1996.11。[18]Mo J H, Zhang Y P, Yang R, Novel Insight into VOC Removal Performance of Photocatalytic Oxidation Reactors,Indoor Air, 2005, 15 (4): 291-300.[17]Xu Y, Zhang Y P, A general model for analyzing VOC emission characteristics from building materials and its application, Atmospheric Environment, 2004, 38 (1), 113-119.[16] Lin K P, Zhang Y P, Experimental research of under-floor electric heating system with shape-stabilized PCM plates, Energy and Building, 2005, 37 (3), 2005, 215-220.[15] Lin K P, Zhang Y P, Xu X, Di H F, Yang R, Qin P H, Modeling and simulation of under-floor electric heating system with shape-stabilized PCM plates, Building and Environ. 2004, 39, 1427-1434.[14] Zhang Y P, Xu Y, Characteristics and formulae of VOC emissions from building materials, Inter. J. of Heat and Mass Transfer, 2003, 46 (25), 4877-4883.[13] Zhang Y P, Yang R, Zhao R Y, A model for analyzing the performance of photocatalytic air cleaner in removing volatile organic compounds, Atmospheric Environment, 2003, 37(24), 3395-3399.[12] Xu Y, Zhang Y P, An improved mass transfer based model for analyzing VOC emissions from building materials, Atmospheric Environment, 2003, 37 (18), 2497-2505.[11] Hu X X, Zhang Y P, Novel insight and numerical analysis of convective heat transfer enhancement with microencapsulated phase change material slurries: laminar flow in a circular tube with constant heat flow, Inter. J. of Heat and Mass Transfer, 45 (2002), 3163-3172.[10] Zhang Y P, Wang X, Analysis of solid-liquid phase change heat transfer enhancement, Science in China, 2002, 45(6), 569-575..[9] Zhang Y P, Su Y, Zhu Y X, Hu X X, A general model for analyzing the thermal performance of the heat charging and discharging processes of latent heat thermal energy storage systems, Journal of Solar Energy Engineering, Transactions of ASME. 2001, 123(3), 232-236.[8]Zhang Y P, Jiang Y, et al., Analysis of Thermal Performance and Energy Saving Effect of Membrane Based Heat Recovery Ventilator, Energy-The International Journal, 2000, 25, 515-527.[7] Kang Y B, zhang Y P, Jiang Y, Zhu Y X, A general model for analyzing the thermal characteristics of a class of latent thermal energy storage systems, Journal of Solar Energy Engineering, 1999, 121(4)..[6] Zhu Y Q, Zhang Y P, Jiang Y and Kang Y B, Thermal storage and heat transfer in phase change material outside a circular tube with axial variation of the heat transfer fluid temperature, Solar Energy Engineering, Transactions of ASME, 1999, 121(3), 1999, 145-149.[5] Zhang Y P, Jiang Y, Jiang Y, A simple method, T-history method, of determining the heat of fusion, specific heat and thermal conducitivity of PCM, Measurement Science Technology, 1999, 10(3), 201-205.[4] Zhang Y P, Ge X S, A new method for determination of the optical constants and thermal radiation properties of semi-transparent films, Solar Energy Materials and Solar Cells, 1995,379-387.[3] Zhang Y P, Liang X G, Numerical analysis of effective thermal conductivity of mixed solid materials, Materials and Design, 1995, 16(2), 91-96.[2] Zhang Y P, Ge X S, Huang H L, A method for measuring thermal radiation properties of semi-transparent materials, Measurement Science and Technogy,1994, 5, 1061-1064.[1] Zhang Y P, Zhou C, et al., A Precise and simple method, the relative transmission fringe depth method, of determining the optical constants and thickness of thin semi-transparent films, J.Phys. D: Appl. Phys. 1992, 25. 1004-1009.