张寅平的介绍

1. 张寅平的介绍

张寅平，男，博士，教授，清华大学建筑环境检测中心主任。北京市室内空气质量评价和控制重点实验室主任。

2. 张寅平的专业履历

北京市室内空气质量控制和评价重点实验室 主任(2015.7-今)清华大学建筑环境与设备工程研究所教授、所长(2008.9-2014.9)清华大学建筑环境与设备工程研究所教授、副所长(1999.7-2008.9)清华大学建筑环境与设备工程研究所副教授(1997.10-1999.7)清华大学建筑环境检测中心主任(2009.10-今)中国科技大学工程热物理系副教授(1993.10-1997.10)中国科技大学工程热物理系讲师(1991.10-1993.10)曾任中国科技大学工程热物理系副主任（1992.3-1997.5）

3. 张寅的介绍

张寅教授，现在中国人民大学、北京师范大学、北京邮电大学，等多所高校任教，主讲会计、管理、经融和经济类课程。同时在多家国内培训机构任培训讲师，从事会计核算、公司理财、成本核算、企业规划与管理、企业营销管理、风险管理与控制、企业价值管理等方面培训。教学特点注重实用性和可操作性，对新准则下财务核算与管理有较好的研究。

4. 张寅平的学术论文

代表性论著如下：[20] Cao JP, Weschler C,Luo JJ, Zhang YP*, A novel method tosimultaneously measure source and sink parameters important for estimatingindoor exposures to SVOCs, Environ. Sci.&Technol., 2016, 50, 825-834[19] Zhang YP*, Xiong JY, Mo JH, Gong MY, Cao JP, Understanding and controlling indoororganic pollutants: mass-transfer analysis and applications, Indoor Air, 2016, 26, 39-60[18] Zhang YP*, Zhang Y, Shi WX, Shang R, Chen R, Wang X, A new approach, based upon inverse problem and variation method, of solving building energy and environment problems, Building and Environment. 2015(91), 204-218..[17] Xiong JY, Wei WJ, Huang SD, Zhang YP*, Association between the emission rate and temperature for chemical pollutants in building materials: General Correlation and Understanding, Environ. Sci. & Technol., 47(2013), 8540-8547.[16] Zhang YP, Mo JH, Wescher CJ*, Reducing health risks from indoor exposures in today’s rapidly developing urban China, Envirion. Health Perspective, 2013 (121), 751-755.[15] Xiong JY, Yan W, Zhang YP*, Varying volume loading method: a convenient and rapid method for measuring the initial emittable concentration and partition coefficient of formaldehyde and other aldehydes in building materials, Environ. Sci. & Techno., 45(2011), 10111-10116.[14] Xu QJ, Zhang YP*, Mo JH, Li XX, Indoor Formaldehyde Removal by Thermal Catalyst: Kinetic Characteristics, Key Parameters, and Temperature Influence,Environ. Sci. & Techno., 45(2011), 5754-5760.[13] Xiong JY, Yao Y, Zhang YP*, C-history method, a new and rapid method of measuring the initial emittable concentration, diffusion and partition coefficients of formaldehyde and VOC in building materials, Environ. Sci. & Technol., 45(2011), 3584-3590.[12] Zhang YP*, Mo JH, Li YG, et al., Can commonly-used fan driven indoor air cleaning techniques improve indoor air quality-A literature review,Atmos. Environ., 45(2011), 4329-4343.[11] Zeng RL, Wang X, Di HF, Jiang F, Zhang YP*, New concepts and approach for developing energy efficient buildings: Ideal specific heat for building internal thermal mass, Energy and Buildings, 43(2011), 1081-1090.[10] Mo JH, Zhang YP*, Xu QJ, Zhu YF, Lamson JJ, Zhao RY, Determination and risk assessment of by-products resulting from photocatalytic oxidation of toluene, Applied Catalysis B-Environmental. 89(2009), 570-576.[9] Xiong JY, Zhang YP*, Wang XK, Chang DW, Macro-meso two scale model for predicting the VOC diffusion coefficients and emission characteristics of porous building material, Atmos. Environ,, 42 (2008), 5278-5290.[8] Hu HP, Zhang YP*, Wang XK, Little JC, An analytical mass transfer model for predicting VOC emission from multi-layered building materials with convective surfaces on both sides. Inter.J. of Heat and Mass Transfer, 50 (2007), 2069-2077.[7] Zhang YP*, Luo XX, Wang XK, Qian K, Influence of temperature on formaldehyde emission parameters of dry building materials,Atmos. Environ , 41(2007), 3203-3216.[6] Zhang YP*, Ding JH, Yang R, Wang X, Influence of additives on thermal conductivity of shape-stabilized phase change materials, Solar Energy Materials & Solar Cells, 2006, 90 (11), 1692-1702.[5] Mo JH, Zhang YP*, Yang R, Novel insight into VOC removal performance of photocatalytic oxidation reactors,Indoor Air, 2005, 15 (4): 291-300.[4] Zhang YP*, Yang R, Zhao RY, A model for analyzing the performance of photocatalytic air cleaner in removing volatile organic compounds, Atmos. Environ, 2003, 37(24), 2003, 3395-3399.[3] Xu Y, Zhang YP*, An improved mass transfer based model for analyzing VOC emissions from building materials, Atmos. Environ, 2003, 37(18), 2497-2505.[2] Hu XX, Zhang YP*, 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.[1]Zhang YP*, Jiang Y, Jiang Y, A simple method, T-history method, of determining the heat of fusion, specific heat and thermal conductivity of PCM, Measurement Science Technology, 10(1999), 3, 201-205.