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梁卫辉 副教授

Associate Prof. LIANG Weihui

电邮 Email: liangwh@nju.edu.cn

中南大学建筑环境与设备工程专业学士,清华大学建筑技术科学系博士,香港大学城市规划系博士后,现为南京大学建筑与城市规划学院副教授。

主要从事室内空气品质、可挥发有机物(VOC)及气味散发、传播和控制研究及乡村建筑节能与绿色建筑等领域的研究。

主持国家科技部重点研发计划子课题1项、国家自然科学基金青年基金项目1项、江苏省自然科学基金青年基金项目1项、中国博士后科研基金面上项目1项,参与国际能源署建筑与社区节能(IEA-EBC)Annex68项目,是中国地区主要研究人员,同时参与多项国家级及省级科研课题。发表高水平学术论文30余篇。


Bachelor of architecture environment and equipment engineering of Central South University

Doctor of architecture technology science of Tsinghua University

Postdoctoral fellow of the Department of Urban Planning of Hong Kong University

Associate professor of the School of Architecture and Urban Planning of Nanjing University

      Mainly engaged in the research of indoor air quality, volatile organic compounds (VOC) and odor emission, transmission and control, rural building energy conservation and green building.

      She has presided over one sub project of the key research and development plan of the Ministry of Science and Technology, one youth fund project of the National Natural Science Foundation of China, one youth fund project of the Natural Science Foundation of Jiangsu Province, and one general project of the China Post doctoral Research Fund. He has participated in the IEA-EBC Annex68 project. He is a major researcher in China and has also participated in a number of national and provincial scientific research projects. He has published more than 30 high-level academic papers.




目前承担课程 Courses




l建筑学专业本科生《可持续设计与技术》

l建筑学专业本科生《建筑节能与绿色建筑》

l建筑学专业研究生《研究方法》

l建筑学专业研究生《绿色建筑技术》

l国际化课程《Green building technology》





主要科研项目与成果 Research and Projects




l2022-2023,常州市高铁新城绿色城区配套能力建设课题《常州市高品质公共建筑技术路线研究与实践》,主持

l2018-2020,国家自然科学基金青年基金资助项目《建筑动态温湿度环境下人造板甲醛长期释放特性和机理研究》,主持
l2018-2020,江苏省自然科学基金青年项目《建筑室内VOCs长期变化规律及模拟研究》,主持
l2016-2019,科技部“绿色建筑及建筑工业化”重点专项《居住建筑室内通风策略与空气质量营造》,子课题负责人
l2016-2018,中国博士后科研基金面上资助项目《湿度影响人造板甲醛散发机理及模型研究》,主持

l2021-2025,国际能源署-建筑与社区节能(IEA-EBC)Annex 86项目“Energy efficient IAQ management in residential buildings”,中国区研究代表

l2016-2018,国际能源署-建筑与社区节能(IEA-EBC)Annex 68项目“Indoor Air Quality Design and Control in Low Energy Residential Building”,课题2的主要研究人员

l2021-2022,横向课题,《太湖生态岛低碳村镇建设研究》,主持

l2018-2018,横向课题,《洁净室节能改造方案与效果评估》,主持

l2016,土木工程领域顶级SCI期刊《 Building and Environment 》2016年度最佳论文奖





主要论著 Publications




lLing Xu, Yibing Hu, Weihui Liang*. Composition and correlation of volatile organic compounds and odor emissions from typical indoor building materials based on headspace analysis. Building and Environment, 2022:109321

lJianxiang Huang, Tongping Hao, Xiao Liu, Phil Jones, Cuiyun Ou, Weihui Liang, Fuqiang Liu. Airborne transmission of the Delta variant of SARS-CoV-2 in an auditorium. Building and Environment, 2022:109212.

lLing Xu, Yibing Hu, Weihui Liang*. Subjective and objective sensory assessments of indoor air quality in college dormitories in Nanjing. Building and Environment, 2022:108802

lWeihui Liang, Mengqiang Lv, Xudong Yang. Development of a physics-based model for analyzing formaldehyde emissions from building material under coupling effects of temperature and humidity. Building and Environment, 2021, 203:108078.

lWeihui Liang. Long-term indoor formaldehyde variations and health risk assessment in Chinese urban residences following renovation. Building and Environment, 2021, 206:108402.

lZhi Gao, Weihui Liang, Shanshan Shi, Jensen Zhang. Combined Heat, Air, Moisture and Pollutant Simulations (CHAMPS) research for building and urban energy efficiency and environmental quality analysis. Building Simulation, 2021, 14(2):237-239.

lWeihui Liang. Volatile organic compounds, odor, and inhalation health risks during interior construction of a fully furnished residential unit in Nanjing, China. Building and Environment, 2020, 186:107366.

lWeihui Liang, Bin Zhao, Junjie Liu, Jingjing Pei. Can carbon dioxide be a good indicator for formaldehyde in residences?—Monte Carlo modeling for a whole year. Science and Technology for the Built Environment, 2020, 26(6): 749-762.

lWeihui Liang, Mengqiang Lv, Xudong Yang. Inhibitory effect of mould growth on formaldehyde emissions from medium-density fibreboards: Evidence from field observations in three experimental houses. Indoor and Built Environment, 2019, 28(7):999-1010.

lWeihui Liang, Jianxiang Huang, Phil Jones, et al. A zonal model for assessing street canyon air temperature of high-density cities. Building and Environment, 2018.

lWeihui Liang, Menghao Qin. A simulation study of ventilation and indoor gaseous pollutant transport under different window/door opening behaviors. Building Simulation, 2017, 10(3):395-405.

lWeihui Liang, Mengqiang Lv, Xudong Yang. The effect of humidity on formaldehyde emission parameters of a medium-density fiberboard: Experimental observations and correlations. Building and Environment, 2016, 101:110–115.

lWeihui Liang, Mengqiang Lv, Xudong Yang. The combined effects of temperature and humidity on initial emittable formaldehyde concentration of a medium-density fiberboard. Building and Environment, 2016, 98: 80–88.

lWeihui Liang, Shen Yang, Xudong Yang. Long-term formaldehyde emissions from medium-density fiberboard in a full-scale experimental room: emission characteristics and the effects of temperature and humidity. Environmental Science & Technology 2015, 49 (17): 10349–10356.

lWeihui Liang, Caiqing Yang, Xudong Yang. Long-term concentrations of volatile organic compounds in a new apartment in Beijing, China. Building and Environment 2014, 82: 693-701.

lWeihui Liang, Chao Wang, Caiqing Yang, Xudong Yang. Volatile organic compounds in different interior construction stages of an apartment. Building and Environment 2014, 81: 380-387.

lWeihui Liang, Xudong Yang. Indoor formaldehyde in real buildings: Emission source identification, overall emission rate estimation, concentration increase and decay patterns. Building and Environment 2013, 69: 114-120.

lWeihui Liang, Peng Gao, Jun Guan, Xudong Yang. Modeling volatile organic compound (VOC) concentrations due to material emissions in a real residential unit. Part I: Methodology and a preliminary case study. Building Simulation 2012, 5(4): 351-357.