研究方向:可持续(健康、舒适和节能)室内空气环境。主持了国家自然科学基金创新群体、杰青、重点、科技部支撑计划重大项目课题、863课题和多项国内外横向课题。发表SCI收录的国际期刊论文190余篇,SCI他引4500余次,h因子42,其中5篇为ESI(高被引)论文,在国际著名出版社ELSVIER的2014、2015年中国高被引论文作者排行榜上连续列土木工程学科首位。参编20余项国家或行业标准,获发明专利20余项。三次应邀在室内空气领域最权威的国际学术大会Inter.  Conf. of Indoor Air上做大会特邀报告(2008,丹麦; 2014,香港;2016,比利时)。

现任中国室内环境与健康专业委员会主任委员,中国环境科学学会常务理事,住房与城乡建设部建筑环境与节能标准化技术委员会副主任委员,中国健康建筑产业技术创新战略联盟技术委员会主任委员,中国建筑学会零能耗建筑学术委员会副主任委员,中国传热传质专业委员会、中国暖通空调专业委员会和中国建筑物理专业委员会委员,国际室内空气科学院Fellow;国际期刊Energy  and Buildings副主编,Indoor Air, Building and Environment,PLoS ONE等编委,  国内核心期刊科学通报、暖通空调、太阳能学报等编委。曾获国家杰出青年基金、省部级一等奖两项、三等奖两项。



[20] Cao JP, Weschler C, Luo JJ, Zhang YP*, A  novel method to simultaneously measure source and sink parameters  important for estimating indoor exposures to SVOCs, Environ. Sci.&  Technol., 2016, 50, 825-834

[19] Zhang YP*, Xiong JY, Mo JH, Gong  MY, Cao JP, Understanding and controlling indoor organic pollutants:  mass-transfer analysis and applications, Indoor Air, 2016,  26, 39-60

[18] 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.

[17] 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.

[16]  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.

[15] 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.

[14]  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.

[13] Xiong JY, Zhang YP*, Impact of temperature on  the initial emittable concentration of formaldehyde in building  materials: experimental observation, Indoor Air, 2010, 20(6),  523-529.

[12] 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.

[11] Mo JH, Zhang YP*, Xu QJ, Lamson JJ, Zhao RY,  Photocatalytic purification of volatile organic compounds in indoor air:  a literature review, Atmos. Environ., 43(2009). 2229-2246.

[10]  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.

[9]  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.

[8] 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.

[7] Zhang YP*, Zhou GB, Lin KP, Di HF, Application  of latent heat thermal energy storage in buildings: state-of-the-art and  outlook, Building and Environment, 42(2007), 2197-2209.

[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.

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