麻豆社

郜志  副教授

Associate Prof. GAO Zhi

电邮 Email: [email protected]

天津大学学士（1995）、硕士（1998），美国雪城大学博士（2010），加拿大自然科学与工程研究理事会博士后（2011）。现为麻豆社 副教授、麻豆社 物理与绿色麻豆社 实验室主任、绿色麻豆社 与城市生活环境国际研究中心执行副主任、硕士生导师。主要从事城市气候与能源、麻豆社 能源与环境、室内空气品质、地下空间环境与健康等领域的研究，发表SCI、SSCI、A&HCI论文六十余篇。2023年起担任Taylor & Francis旗下SCI期刊《International Journal of Ventilation》副主编，2024年起担任Elsevier旗下SCI期刊《Energy and Buildings》编委，2021年起担任Taylor & Francis旗下SCI期刊《Science and Technology for the Built Environment》编委，曾任Springer Nature旗下SCI期刊《Building Simulation》客座编辑（2021年）。第16届整体麻豆社 环境系统研究国际论坛（CHAMPS2019）执行主席，第1届“形态-建材-气候-能耗”低碳城市建设与麻豆社 节能新技术国际研讨会（MMME2023）大会主席。

B.S. (1995) and M.S. (1998) from Tianjin University, Ph.D. (2010) from Syracuse University, USA, and Postdoctoral Fellowship (2011) from Natural Sciences and Engineering Research Council of Canada. Zhi Gao is currently an Associate Professor, the director of “Building Physics and Green Building Laboratory”, the deputy director of “International Research Center for Green Buildings and Urban Living Environment”, and Master's Supervisor in the School of Architecture and Urban Planning of Nanjing University, China. He is mainly engaged in research on urban microclimate and energy, building energy and environment, indoor air quality and underground space environment and health. He has published more than sixty SCI, SSCI and A&HCI journal papers. He has been the associate editor of Taylor & Francis' SCI journal“International Journal of Ventilation”since 2023, the editorial board member of Elsevier' s SCI journal“Energy and Buildings”since 2024, the editorial board member of Taylor & Francis' SCI journal“Science and Technology for the Built Environment”since 2021. He was the guest editor of Springer Nature' SCI journal“Building Simulation”in 2021. He was the executive chairman of the 16th international forum on Combined Heat, Air, Moisture and Pollutant Simulations  research for building and urban energy efficiency and environmental quality analysis (CHAMPS2019), and the chairman of the 1st international symposium on "Morphology – Material – Microclimate - Energy " low carbon city construction and new technologies for building energy efficiency（MMME2023）.

l麻豆社 学专业研究生《传热学与计算流体力学基础》（国际化课程）

Fundamentals of Heat Transfer and Computational Fluid Dynamics (International Course for the Master of Architecture)

l麻豆社 学专业研究生《麻豆社 环境学》

Built Environment (For the Master of Architecture)

l麻豆社 学专业本科生《麻豆社 设备》

Building Equipments (For the Undergraduate of Architecture)

l创新创业课程《现代麻豆社 室内空气品质与创新净化技术》

Indoor Air Quality and Innovative Cleaning Technology in Modern Buildings (Innovation Course)

指导学生获奖

l郭超，《典型城市街道街区形态的热环境分析及其对麻豆社 能耗的影响研究》,2021年度江苏省优秀学术学位硕士学位论文。

Guo, Chao; “Thermal environment analysis of typical urban street form and its influence on building energy consumption”, Excellent Master Degree of Jiangsu Province in 2021.

l芮丽燕,《城市街道交叉口的形态及绿化对通风的影响》,2020年度江苏省优秀学术学位硕士学位论文。

Rui, Liyan; “Effects of morphology and greening of urban intersection on ventilation”, Excellent Master Degree of Jiangsu Province in 2020.

l沈佳磊,《室内臭氧的来源、去除与分布特性研究》,2019年度江苏省优秀学术学位硕士学位论文。

Shen, Jialei; “Research on source, removal and dispersion of indoor ozone”, Excellent Master Degree of Jiangsu Province in 2019.

l徐福锁, Xu, Fusuo; Healthy Buildings 2023 Asia, Student Conference Support Award.

l郭超, Guo, Chao; Healthy Buildings 2019 Asia, Student Conference Support Award.

l沈佳磊, Shen, Jialei; Healthy Buildings 2017 Europe, Student Conference Support Award.

l徐福锁, 江苏省三好学生，2024。

Xu, Fusuo; Merit student of Jiangsu Province，2024.

l国家奖学金，National Scholarship：王含宁，Wang, Hanning（2024）；徐福锁, Xu, Fusuo（博士生，Ph.D student, 2024）；胡永裕，Hu, Yongyu（2022）；徐福锁, Xu, Fusuo（博士生，Ph.D student, 2022）；郭鑫，Guo, Xin（2020）；郭超，Guo, Chao（2019）；黄煜，Huang, Yu（2019）；芮丽燕，Rui, Liyan（2018）；杨喆，Yang, Zhe（2018）；沈佳磊，Shen, Jialei（2017）.

l主持国家自然科学基金面上项目一项（“典型街区形态和麻豆社 表面材料对城市微气候及麻豆社 能耗的耦合影响机理研究”，2023-2026）；参与国家自然科学基金重点项目一项（主持子课题一项“基于夏热冬冷地区城市形态的城市微气候综合数值模拟方法研究”，2016-2020）。参与国家自然科学基金气象联合基金重点支持项目一项（主持子课题一项“夏热冬冷地区典型城乡多尺度风热环境与麻豆社 能耗耦合影响机理研究”，2025-2028）。

Host the Project of National Natural Science Foundation of China(“Study of the coupling effect mechanism of typical urban block morphology and building surface materials on urban microclimate and building energy consumption”,2023-2026); Participation in the key project of National Natural Science Foundation of China (presiding over sub project “Research on integrated numerical simulation method of urban microclimate based on urban morphology in hot summer and cold winter regions”, 2016-2020)；Participation in the key project of the Joint Meteorological Fund of the National Natural  Science Foundation of China (presiding over sub project “Research on the coupling mechanism of multi scale wind and thermal environment and building energy consumption in typical urban and rural areas of hot summer and cold winter regions”, 2025-2028).

l参与国家重点研发计划项目两项（主持小子课题一项“室外颗粒物和臭氧对室内的贡献”，2016-2019）。

Participation in two National Key R&D Program Projects (presiding over sub project “Contributions of outdoor particulate matters and ozone to indoor environment”, 2016-2019).

l主持国家留学人员科技活动择优资助项目一项；主持国家、教育部、江苏省重点实验室开放基金课题若干项。

Host the Priority funding for national science and technology activities for Chinese overseas returnees; Opening projects of key laboratories of National, the Ministry of Education and Jiangsu Province.

lZhang M, Carlo O, Peng Y, Gao Z*, Zhang J, Ji G, Buccolieri R. Volumetric Drag Coefficients for Generic Urban Configurations: Insights from Canopy Flow Analysis. Building and Environment, 2024, 267(13):112273.

lZhang M, Li J, Palusci O, Gao Z*, Ji G, Zhang J, Buccolieri R. Reduced-scale numerical investigation of airflow around low-medium density neighbourhoods from the perspectives of drag force and ventilation efficiency. Urban Climate, 2024, 58(8):102158.

lYang J, Wang H, Cheng L, Gao Z*, Xu F. A review of resistance–capacitance thermal network model in urban building energy simulations. Energy and Buildings, 2024, 323(1): 114765.

lWang H, Hang J, Yang J, Gao Z*, Zhao J, Xu F. Reduced-scale experimental study on the cooling effect of solar control films and cool materials. Energy and Buildings, 2024, 320(39): 114636.

lWang H, Guo X, Yang J, Gao Z*, Zhang M, Xu F. Indoor PM2.5 and building energy consumption in nine typical residential neighborhoods in Nanjing under different ventilation strategies caused by traffic-related PM2.5 dispersion. Journal of Building Engineering, 2024, 95(4):110168.

lXu F, Hang J, Wang H, Gao Z*, Zhang J, Yang J. An experimental study of the effects of using cool materials at different building heights on the indoor and outdoor environment. Building and Environment, 2024, 259(4):111664.

lZhang M, Guo X, Li J, Gao Z*, Ji G, Zhang J, Buccolieri R. Urban-canopy airflow dynamics: A numerical investigation of drag forces and distribution for generic neighborhoods, and their relationships with breathability. The Science of The Total Environment, 2024, 926(758):171836.

lQiu K, Yang J, Gao Z*, Xu F. A review of Modelica language in building and energy: Development, applications, and future prospect. Energy and Buildings, 2024, 308(7): 113998.

lXu F, Wang H, Tian D, Gao Z*, Zhang J. Factors affecting the daytime cooling effect of cool materials: A case study combining experiment and simulation. Building and Environment, 2024, 250:111213.

lXu F, Tian D, Gao Z*, Zhang J. The effects of cool materials, façade orientation, and morphological parameters on energy consumption at the residential neighborhood scale. Building Simulation, 2024, 17:525-542.

lXu F, Zhang J, Gao Z*. A case study of the effect of building surface cool and super cool materials on residential neighborhood energy consumption in Nanjing. Renewable and Sustainable Energy Reviews, 2024, 189:114027.

lXu F, Zhang J, Gao Z*, Tian D, Wang h. Study on the energy-saving effects of radiative material properties and material coating ratios in residential neighborhoods with different morphologies. Energy and Buildings, 2023, 301: 113718.

lXu F, Zhang J, Gao Z*. The effect of building surface cool and super cool materials on microclimate in typical residential neighborhoods in Nanjing. Sustainable Cities and Society, 2023, 98:104838.

lXu F, Shen J, Gao Z*. A field measurement study of the effects of outdoor pollutants and room volumes on indoor fine particle and ozone concentrations. Journal of Building Engineering, 2023, 78:107615.

lTian D, Zhang J, Gao Z*. The advancement of research in cool roof: Super cool roof, temperature-adaptive roof and crucial issues of application in cities. Energy and Buildings, 2023, 291:113131.

lXu X, Gao Z*, Zhang M. A review of simplified numerical approaches for fast urban airflow simulation. Building and Environment, 2023, 234:110200.

lGuo X, Zhang M, Gao Z*, Zhang J, Buccolieri R. Neighborhood-scale dispersion of traffic-related PM2.5: Simulations of nine typical residential cases from Nanjing. Sustainable Cities and Society, 2023, 90:104393.

lHu Y, Peng Y, Gao Z*, Xu F. Application of CFD plug-ins integrated into urban and building design platforms for performance simulations: A literature review. Frontiers of Architectural Research, 2023, 12(1):148-174.

lXu F, Gao Z*. Frontal area index: A review of calculation methods and application in the urban environment. Building and Environment, 2022, 224:109588.

lXu F, Gao Z*, Zhang J, Hu Y, Ding W. Influence of typical street-side public building morphologies on the ventilation performance of streets and squares. Building and Environment, 2022, 221: 109331.

lZhang M, You W, Qin Q, Peng D, Hu Y*, Gao Z, Buccolieri R. Investigation of typical residential block typologies and their impact on pedestrian level microclimate in summers in Nanjing. Frontiers of Architectural Research, 2022, 11(2):278-296.

lXu F, Gao Z*, Zhang J. Effects of roadside morphologies and moving vehicles on street canyon ventilation. Building and Environment, 2022, 218: 109138.

lXu F, Gao Z*. Transport and control of kitchen pollutants in Nanjing based on the Modelica multizone model. Journal of Building Performance Simulation, 2022, 15(1):97-111.

lGuo X, Buccolieri R, Gao Z*, Zhang M, Lyu T, Rui L, Shen J. On the effects of urban-like intersections on ventilation and pollutant dispersion. Building Simulation, 2022, 15: 419-433.

lXu F, Gao Z*. Study on indoor air quality and fresh air energy consumption under different ventilation modes in 24-hour occupied bedrooms in Nanjing, using Modelica-based simulation. Energy and Buildings, 2021, 257(2):111805.

lGuo X, Gao Z*, Buccolieri R, Zhang M, Shen J. Effect of greening on pollutant dispersion and ventilation at urban street intersections. Building and Environment. 2021, 203(9): 108075.

lPeng Y, Gao Z*, Ding W, Zhang J, Li X, Xu J, Wei Y. Application of computational fluid dynamics in subway environment without fire and smoke - Literature review. Building and Environment, 2021, 206:108408.

lZhang M, Gao Z*. Effect of urban form on microclimate and energy loads: Case study of generic residential district prototypes in Nanjing, China. Sustainable Cities and Society, 2021, 70:102930.

lPeng Y, Gao Z*, Buccolieri R, Shen J, Ding W. Urban ventilation of typical residential streets and impact of building form variation. Sustainable Cities and Society, 2021, 67: 102735.

lGao Z, Liang W, Shi S, Zhang J*. 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.

lShen J, Krietemeyer B, Bartosh A, Gao Z, Zhang J*. Green Design Studio: A modular-based approach for high-performance building design. Building Simulation, 2021, 14:241-268.

lHuang Y, Gao Z*, Zhang H. Comparison of common machine learning algorithms trained with multi-zone models for identifying the location and strength of indoor pollutant sources. Indoor and Built Environment, 2021, 30(8):1142-1158.

lPeng Y, Buccolieri R, Gao Z, Ding W*. Indices employed for the assessment of “urban outdoor ventilation”-A review. Atmospheric Environment. 2020, 223:117211.

lGuo C, Gao Z*, Shen J. Emission rates of indoor ozone emission devices: A literature review. Building and Environment. 2019, 158:302-318.

lGuo C, Buccolieri R, Gao Z*. Characterizing the morphology of real street models and modeling its effect on thermal environment. Energy and Buildings, 2019, 203:109433.

lYang Y, Gatto E, Gao Z*, Buccolieri R, Morakinyo T, Lan H. The “plant evaluation model” for the assessment of the impact of vegetation on outdoor microclimate in the urban environment. Building and Environment, 2019, 159:106151.

lShen J, Gao Z*. Commuter exposure to particulate matters in four common transportation modes in Nanjing. Building and Environment, 2019, 156:156-170.

lRui L, Buccolieri R, Gao Z*, Gatto E, Ding W. Study of the effect of green quantity and structure on thermal comfort and air quality in an urban-like residential district by ENVI-met modelling. Building Simulation, 2019, 12(2):183-194.

lShen J, Gao Z*. Ozone removal on building material surface: A literature review. Building and Environment, 2018, 134: 205-217.

·Shen J, Gao Z*, Ding W, Yu Y. An investigation on the effect of street morphology to ambient air quality using six real-world cases. Atmospheric Environment, 2017, 164:85-101.

lGao Z*, Zhang J. Modeling particle penetration through the wall assembly using computational fluid dynamics. Aerosol Science and Technology, 2015, 49:167-178.

lGao Z, Zhang J*, Byington J. An experimental study on the uptake factor of tungsten oxide particles resulting from an accidentally dropped storage container. Journal of Occupational and Environmental Hygiene, 2013, 10:357-367.

lGao Z*, Zhang J. Modeling ozone penetration through the wall assembly using computational fluid dynamics. HVAC&R Research, 2012, 18:160-168.

lGao Z*, Zhang J. Numerical analysis for evaluating the 'Exposure Reduction Effectiveness' of room air cleaners. Building and Environment. 2010, 45(9):1984-1992.

lSmith J, Gao Z*, Zhang J, Guo B. A new experimental method for the determination of emittable initial VOC concentrations in building materials and sorption isotherms for IVOCs. CLEAN – Soil Air Water, 2009, 37(6):454-458.

l李逸凡, 陆麒竹, 邓文骁, 张明杰, 郜志*. 关于国内外智能麻豆社 标准的探究. 麻豆社 科学, 2022, 38(10): 158-168.

l张明杰, 郜志*. 多层麻豆社 太阳能烟囱的全年通风潜力评价. 西安麻豆社 科技大学学报(自然科学版), 2021, 53(02):283-288.

l郭超, 郜志*. 关于国内外臭氧限值浓度标准的探究. 麻豆社 科学, 2020, 36(02):163-170+199.

l黄煜, 芮丽燕, 郜志*., 沈佳磊. 臭氧与人体皮肤油脂反应的研究进展. 环境与健康杂志, 2019,36(02): 182-187.

l张伟, 郜志*, 丁沃沃. 室外热舒适性指标的研究进展. 环境与健康杂志, 2015, 32(09):836-841.

lZhang J, Gao Z, Shen J. Managing IAQ at Multiple Scales: From Urban to Personal Microenvironments (book chapter of Handbook of Indoor Air Quality), Springer, 2021.

l（译著) 郜志, 华晓宁, 吴蔚. 全球人类住区报告2011: 城市与气候变化(联合国人居署), 中国麻豆社 工业出版社, 2014.