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  • 艾正涛
  • 编号:32    发布时间:2021-01-16 20:37:26    更新时间:2021-07-26 10:19:05
姓  名 艾正涛 性  别
职  称 教授 职  务 湖南大学城市与建筑创新研究院副院长
本科学校 西南交大大学 本科专业 建筑环境与设备工程
硕士学校 同济大学 硕士专业 供热供燃气通风及空调工程
博士学校 香港理工大学 博士专业 屋宇设备工程
研究方向 建筑生物安全、建筑通风节能
学术兼职 (1)国际期刊Energy and Built Environment助理编辑、特刊编辑 (2)Indoor Air、Healthy Buildings、华人能源与人工环境等国际会议学术委员会委员、会场主席 (3)湖南省建设科技与建筑节能协会生态乡村建设专业委员会秘书长 (4)国家自然基金委基金评审专家库专家 (5)教育部科技管理信息系统专家库专家 (6)国家公派留学评审专家 (7)湖南省科技管理信息系统专家库专家 (8)长沙市科技专家人才库专家 (9)荷兰比利时等国家自然科学基金国际通信评审人 近30个SCI国际期刊审稿人
承担项目 (1)中国工程院战略研究与咨询项目,城市基础设施智能监控及管理战略体系研究, 2021.01-2021.12,在研,参与 (2)丹麦高等教育与科学部基金,Airborne transmission of infectious diseases: mechanism and ventilation intervention, 2021.01-2021.12,在研,参与 (3)湖南大学土木工程学院高水平国(境)外学者项目,发展安全与节能的高层建筑通风系统,2021.01-2023.12,在研,主持 (4)湖南省学位与研究生教育改革研究项目,“双一流”建设背景下土木类研究生国际联合培养模式探索与实践,2021.01-2022.12,在研,参与 (5)国家自然科学青年基金(51908203),短期事件中传染病空气传播规律及时均暴露剂量不确定性研究,2020-2022,在研,主持 (6)湖南大学科研启动基金,建筑环境健康与节能,2019起,在研,主持 (7)国际能源署,IEQ-EBC ANNEX80,Resilient Cooling for Residential and Small Commercial Buildings, 2019-2023,在研,参与 (8)丹麦Ramboll基金,Improved methodology for CO2 based design of building ventilation,2018-2020,在研,参与 (9)丹麦技术大学和欧盟玛丽居里行动计划联合资助(FP7/2007-2013: No.609405), Dynamics and time scales of airborne transmission in indoor environments, 2016-2019, 已结题,主持 (10)联合国食品和农业组织(FAO),Community-level risks of aerosolized transmission of zoonotic HPAI H5N1 in farms and live bird markets (LBMs),2015-2018,已结题,主研 (11)香港-环境及自然保育基金(ECF 18/2014),Envelope design to improve ventilation performance of residential buildings in dense urban environment,2015-2017,已结题,主研 (12)香港-大学教育资助委员会(RGC-CRF: No. C5002-14GF),Development of design methodologies for the improvement of wind and thermal comfort in the urban environment,2015-2018,已结题,主研 (13)香港-环境及自然保育基金(ECF 23/2011),Green features for sustainable daylighting design in buildings,2013-2015,已结题,主研 (14)香港-环境及自然保育基金(ECF 23/2009),Green features for improvement of air quality in buildings,2011-2013,已结题,主研 (15)香港理工大学基金(PolyU: GU841),Prediction of flow-generated noise produced by in-duct rigid spoilers using Computational Fluid Dynamics,2011-2013,已结题,主研 香港理工大学基金(PolyU: SURF No. 1-ZV4S),Development of designed features for sustainable green buildings,2009-2012,已结题,主研
获  奖 (1)玛丽居里学者,欧盟研资局,2016 岳麓学者,湖南大学,2019
著  作 (1)Zhengtao Ai, Guoqiang Zhang. Chapter 9 – Natural ventilation system design: predictive methods, in Book “Handbook of Ventilation Design for the Built Environment: Design, Control, Testing and Security”. Zhengtao Ai, Cheuk Ming Mak. Chapter 17 – Urban ventilation and design, in Book “Handbook of Ventilation Design for the Built Environment: Design, Control, Testing and Security”
论  文 A. 同行评议期刊论文
[44] S. Zhang, Z.T. Ai, Z. Lin, 2021. Occupancy-aided ventilation for both airborne infection risk control and work productivity, Building and Environment, 188, 107506.
[43] A.K. Melikov, Z.T. Ai*, D.G. Markov, 2020. Intermittent occupancy combined with ventilation: an efficient strategy for the reduction of airborne transmission indoors, Science of the Total Environment, 744, 140908.
[42] Z.T. Ai*, Cheuk Ming Mak, Naiping Gao, Jianlei Niu, 2020. Tracer gas as a suitable surrogate of exhaled droplet nuclei for studying airborne transmission in the built environment, Building Simulation, In press.
[41] Z.T. Ai*, T. Huang, A.K. Melikov, 2019, Airborne transmission of exhaled droplet nuclei between occupants in a room with horizontal air distribution. Building and Environment, 163, 106328.
[40] Z.T. Ai*, K. Hashimoto, A.K. Melikov, 2019, Influence of pulmonary ventilation rate and breathing cycle period on the risk of cross-infection. Indoor Air, 6(29), 993-1004.
[39] P. Xue, Z.T. Ai*, D.J. Cui, W. Wang, 2019. A grey box modeling method for fast predicting buoyancy-driven natural ventilation rates through multi-opening atriums, Sustainability, 11(12), 3239.
[38] Z.T. Ai*, K. Hashimoto, A.K. Melikov, 2019. Airborne transmission between room occupants during short-term events: measurement and evaluation. Indoor Air, 29 (4), 563-576.
[37] D.J. Cui, G. Hu, Z.T. Ai, Y.X. Du, C.M. Mak, K. Kwok, 2019. Particle image velocimetry measurement and CFD simulation of pedestrian level wind environment around U-type street canyon. Building and Environment, 154, 239-251.
[36] S. Zhang, Z. Lin, Z.T. Ai, C. Huan, Y. Cheng, F. Wang, 2019. Multi-criteria performance optimization for operation of stratum ventilation under heating mode. Applied Energy, 239, 969-980.
[35] Y.W. Dai, C.M. Mak, Z.T. Ai, 2019. Flow and dispersion in coupled outdoor and indoor environments: issue of Reynolds number independence. Building and Environment, 150, 119-134.
[34] S. Zhang, Z. Lin, Z.T. Ai, F. Wang, Y. Cheng, C. Huan, 2019. Effects of operation parameters on performances of stratum ventilation for heating mode. Building and Environment, 148, 55-66.
[33] D.J. Cui, Z.T. Ai*, C.M. Mak, K.C.S. Kwok, P. Xue, 2018. The influence of envelope features on interunit dispersion around a naturally ventilated multi-story building. Building Simulation, 11(6), 1245-1253.
[32] Z.T. Ai*, A.K. Melikov, 2018. Airborne spread of expiratory droplet nuclei between the occupants of indoor environments: a review. Indoor Air, 28(4), 500-524.
[31] Y.W. Dai, C.M. Mak, Z.T. Ai, J. Hang, 2018. Evaluation of computational and physical parameters influencing CFD simulations of pollutant dispersion in building arrays. Building and Environment, 137, 90-107.
[30] Y.X. Du, C.M. Mak, Z.T. Ai, 2018. Modelling of pedestrian level wind environment on a high-quality mesh: A case study for the HKPolyU campus. Environmental Modelling & Software, 103, 105-119.
[29] Y.W. Dai, C.M. Mak, Z.T. Ai, 2018. Computational fluid dynamics simulation of wind-driven inter-unit dispersion around multi-storey buildings: Upstream building effect. Indoor and Built Environment, 28(2), 217-234.
[28] Z.T. Ai, C.M. Mak, 2018. Wind-induced single-sided natural ventilation in buildings near a long street canyon: CFD evaluation of street configuration and envelope design. Journal of Wind Engineering and Industrial Aerodynamics, 172, 96-106.
[27] Y.X. Du, C.M. Mak, K.C.S. Kwok, K.T. Tse, T.C. Lee, Z.T. Ai, J.L. Liu, J.L. Niu, 2017. New criterion for assessing low wind environment at pedestrian level in Hong Kong. Building and Environment, 123, 23-36.
[26] D.J. Cui, C.M. Mak, Z.T. Ai, K.C.S. Kwok, X.Z. Meng, J.L. Niu, 2017. On-site evaluation of pedestrian-level air quality at a semi-closed U-type street canyon in an ancient city. Journal of Wind Engineering and Industrial Aerodynamics, 168, 322-333.
[25] Z.T. Ai, C.M. Mak, H.M. Wong, 2017. Noise level and its influences on dental professionals in a dental hospital in Hong Kong. Building Services Engineering Research and Technology, DOI: 10.1177/0143624417705529.
[24] Z.T. Ai, C.M. Mak, 2017. CFD simulation of flow in a long street canyon under a perpendicular wind direction: Evaluation of three computational settings. Building and Environment, 114, 293-306.
[23] Z.T. Ai, C.M. Mak, 2016. Short-term mechanical ventilation of air-conditioned residential buildings: A general design framework and guidelines. Building and Environment, 108, 12-22.
[22] Z.T. Ai, C.M. Mak, D.J. Cui, P. Xue, 2016. Ventilation of air-conditioned residential buildings: A case study in Hong Kong. Energy and Buildings 127, 116-127.
[21] Z.T. Ai, C.M. Mak, H.C. Lee, 2016. Roadside air quality and implications for control measures: A case study of Hong Kong. Atmospheric Environment 137, 6-16.
[20] D.J. Cui, C.M. Mak, K.C.S. Kwok, Z.T. Ai, 2016. CFD simulation of the effect of an upstream building on the interunit dispersion in a multistory building in two wind directions. Journal of Wind Engineering and Industrial Aerodynamics 150, 31-41.
[19] P. Xue, C.M. Mak, Z.T. Ai, 2016. A structured approach to overall environmental satisfaction in high-rise residential buildings. Energy and Buildings 116, 181-189.
[18] Z.T. Ai, C.M. Mak, 2016. Large eddy simulation of wind-induced interunit dispersion around multistory buildings. Indoor Air, 26:259-273.
[17] Z.T. Ai, C.M. Mak, 2015. From street canyon microclimate to indoor environmental quality in naturally ventilated urban buildings: Issues and possibilities for improvement. Building and Environment 94, 489-503.
[16] Z.T. Ai, C.M. Mak, 2015. Comparison of single-sided ventilation characteristics between single-storey and multi-storey buildings due to wind effect. Special issue of Indoor Air 2014, International Journal of Ventilation 14(2), 181-190.
[15] Z.T. Ai, C.M. Mak, 2015. Large-eddy simulation of flow and dispersion around an isolated building: Analysis of influencing factors. Computers and Fluids 118, 89-100.
[14] Z.T. Ai, C.M. Mak, D.J. Cui, 2015. On-site measurements of ventilation performance and indoor air quality in naturally ventilated high-rise residential buildings in Hong Kong. Indoor and Built Environment 24(2), 214-224.
[13] Z.T. Ai, C.M. Mak, 2014. Potential of using reduced-scale models in CFD simulations in saving numerical resources: Theoretical analysis and case study for flow around an isolated building. Journal of Wind Engineering and Industrial Aerodynamics 134, 25-29.
[12] Z.T. Ai, C.M. Mak, 2014. A study of interunit dispersion around multistory buildings with single-sided ventilation under different wind directions. Atmospheric Environment 88, 1-13.
[11] Z.T. Ai, C.M. Mak, 2014. Modelling of coupled urban wind flow and indoor air flow on a high-density near-wall mesh: sensitivity analyses and case study for single-sided ventilation. Environmental Modelling and Software 60, 57-68.
[10] Z.T. Ai, C.M. Mak, 2014. Analysis of fluctuating characteristics of wind-induced airflow through a single opening using LES modeling and the tracer gas technique. Building and Environment 80, 249-258.
[9] Z.T. Ai, C.M. Mak, 2014. Determination of single-sided ventilation rates in multistory buildings: Evaluation of methods. Energy and Buildings 69, 292-300.
[8] Z.R. Li, Z.T. Ai*, W.J. Wang, Z.R. Xu, X.Z. Gao, H.S. Wang, 2014. Evaluation of airflow pattern in wind-driven naturally ventilated atrium buildings: measurement and simulation. Building Services Engineering Research and Technology 35(5), 139-154.
[7] C.M. Mak, X. Wang and Z.T. Ai, 2014. Prediction of flow noise from in-duct spoilers using Computational Fluid Dynamics. Applied Acoustics 76, 386-390.
[6] Z.T. Ai, C.M. Mak, J.L. Niu, 2013. Numerical investigation of wind-induced airflow and interunit dispersion characteristics in multistory residential buildings. Indoor Air 23, 417-429.
[5] Z.T. Ai, C.M. Mak, 2013. CFD simulation of flow and dispersion around an isolated building: Effect of inhomogeneous ABL and near-wall treatment. Atmospheric Environment 77, 568-578.
[4] Z.T. Ai, C.M. Mak, J.L. Niu, Z.R. Li, 2011. Effect of balconies on thermal comfort in wind-induced, naturally-ventilated low-rise buildings. Building Services Engineering Research and Technology 32(3), 277-292.
[3] Z.T. Ai, C.M. Mak, J.L. Niu, Z.R. Li, 2011. The assessment of the performance of balconies using computational fluid dynamics. Building Services Engineering Research and Technology 32(3), 229-243.
[2] Z.T. Ai, C.M. Mak, J.L. Niu, Z.R. Li, Q. Zhou, 2011. Effect of balconies on ventilation performance of low-rise buildings. Indoor and Built Environment 20(6), 649-660.
[1] W. Zhang, C.M. Mak, Z.T. Ai, W.M. Siu, 2011. A study of the ventilation and thermal comfort of the environment surrounding a new university building under construction. Indoor and Built Environment 21(4), 568-582.
B. 同行评议会议论文
[31] Z.T. Ai, C.M. Mak, N.P. Gao, J.L. Niu, 2020. How suitable is tracer gas as a surrogate of exhaled droplet nuclei for studying airborne transmission in the built environment, The 16th Conference of the International Society of Indoor Air Quality & Climate, 1-5 November, 2020, Seoul, South Korea.
[30] Z.T. Ai, Arsen Melikov, 2019. Some important characteristics of human respiration and their influence on the risk of cross infection, Healthy buildings 2019 Asia, 22-25 October 2019, Changsha, China.
[29] Z.T. Ai, 2019. Natural ventilation of high-rise buildings in densely populated urban areas, Healthy buildings 2019 Asia, 22-25 October 2019, Changsha, China.
[28] Kaho Hashimoto, Z.T. Ai, Arsen Melikov, Shin-ichi Tanabe, 2019. Airborne transmission during short-term events between occupants, The Society of Heating, Air-conditioning and Sanitary Engineers of Japan, 18-20 September 2019, Sapporo, Japan.
[27] Kaho Hashimoto, Z.T. Ai, Arsen Melikov, Shin-ichi Tanabe, 2019. Airborne transmission during short-term events under stratum ventilation, Architectural Institute of Japan, 3-6 September 2019, Hokuriku, Japan.
[26] Z.T. Ai, C.M. Mak, 2019. Natural ventilation in multi-story buildings near street canyon. The 15th International Conference on Wind Engineering, 1-6 September 2019, Beijing, China.
[25] Z.T. Ai, 2019. “Flow and dispersion in coupled outdoor and indoor environments: Issues of Reynolds number independence”, The First International Chinese Conference on Energy and Built Environment, 19-22 July 2019, Chengdu, China.
[24] Z.T. Ai, 2019. “Ventilation of air-conditioned residential buildings”,Symposium on Ventilation, Ai-conditioning and Air Distribution, Organized by Joint International Research Laboratory of Green Buildings and Built Environments of Education P.R.C. China, 16-18 July 2019, Chongqing, China.
[23] Z.T. Ai, A.K. Melikov, 2019. Characteristics of airborne transmission between occupants indoor during short-term events. The 11th International Symposium on Heating, Ventilation and Air Conditioning (ISHVAC), 12-15 July 2019, Harbin, China.
[22] Z.T. Ai, A.K. Melikov, 2019. Airborne transmission in non-uniform indoor environments, at the 11th International Symposium on Heating, Ventilation and Air Conditioning (ISHVAC), 12-15 July 2019, Harbin, China.
[21] K. Hashimoto, Z.T. Ai, A.K. Melikov, 2019. Airborne transmission during short-term events under stratum ventilation. The 13th REHVA World Congress CLIMA, 26-29 May 2019, Bucharest, Romania.
[20] T. Huang, Z.T. Ai, A.K. Melikov, 2019. Characteristics of airborne transmission under stratum ventilation. The 13th REHVA World Congress CLIMA, 26-29 May 2019, Bucharest, Romania.
[19] Z.T. Ai, G.Q. Zhang, 2018. Short-term mechanical ventilation of air-conditioned residential buildings: case study and general design framework. The 39th AIVC – 7th TightVent & 5th venticool Conference, 18-19 September 2018, Juan-les-Pins, France.
[18] Z.T. Ai, A.K. Melikov, 2018. The relationship between airborne cross-infection risk and separation distance between occupants indoors: a review and some new findings. 15th International Conference on Indoor Air Quality and Climate, 22-27 July 2018, Philadelphia, USA.
[17] D.J. Cui, G. Hu, Z.T. Ai, K.C.S. Kwok, C.M. Mak, 2018. Wind tunnel experiment and CFD simulation on pollutant inter-unit dispersion in U-type street canyons. 15th International Conference on Indoor Air Quality and Climate, 22-27 July 2018, Philadelphia, USA.
[16] Z.T. Ai, A.K. Melikov, 2018. The influence of indoor air distribution on airborne spread of expiratory droplet nuclei between occupants: a review and some new findings. Roomvent & Ventilation 2018, 2-5 June 2018, Espoo, Finland.
[15] K.W. Ma, C.M. Mak, H.M. Wong, Z.T. Ai, 2018. Effects of noise on dental professionals in a dental hospital in Hong Kong. 4th International Conference on Building Energy, Environment (COBEE 2018), 5-9 February 2018, Melbourne, Austrialia.
[14] Z.T. Ai, C.M. Mak, D. Yang, H.M. Wong, 2017. CFD simulation of natural ventilation in urban buildings due to wind effect. The European Conference on Sustainability, Energy & the Environment, 7-9 July 2017, Brighton, UK.
[13] Z.T. Ai, C.M. Mak, H.M. Wong, 2017. Evaluation of computational domain on CFD simulation of flow in a long street canyon under a perpendicular wind direction. 7th European and African Conference on Wind Engineering (EACWE 2017), 4-7 July 2017, Liege, Belgium.
[12] Z.T. Ai, C.M. Mak, 2016. On-site evaluation of ventilation strategies in air-conditioned residential buildings. 14th International Conference on Indoor Air Quality and Climate, 3-8 July 2016, Ghent, Belgium.
[11] Y.X. Du, C.M. Mak, K.C.S. Kwok, K.T. Tse, Z.T. Ai, J.L. Niu, Y.W. Dai, 2016. Wind tunnel study of pedestrian level wind environment: Effects of building lift-up design. 14th International Conference on Indoor Air Quality and Climate, 3-8 July 2016, Ghent, Belgium.
[10] D.J. Cui, C.M. Mak, Z.T. Ai, K.C.S. Kwok, 2016. On-site measurement of urban environmental quality for two different building configurations. 14th International Conference on Indoor Air Quality and Climate, 3-8 July 2016, Ghent, Belgium.
[9] Z.T. Ai, D.J. Cui, C.M. Mak, 2016. Effect of upstream building and envelope features on natural ventilation performance of multistory building. 4th Annual Conference on Engineering and Information Technology, 29-31 March 2016, Kyoto, Japan.
[8] Z.T. Ai, C.M. Mak, Prediction of single-sided natural ventilation performance in multistory buildings. 19th National Academic Conference on Heating, Ventilation, Air-conditioning and Refrigeration, 27-31 October 2014, Tianjin, China.
[7] Z.T. Ai, C.M. Mak, Fluctuating behaviors of airflow through a single opening due to turbulent wind. 6th International Symposium on Computational Wind Engineering, 8-12 June 2014, Hamburg, Germany.
[6] Z.T. Ai, C.M. Mak, D.J. Cui, Comparison of single-sided ventilation characteristics between single-room and multistory buildings due to wind effect. 13th International Conferences on Indoor Air Quality and Climate. 7-12 July 2014, Hong Kong.
[5] D.J. Cui, C.M. Mak, Z.T. Ai, 2014. Effect of an upstream building on natural ventilation performance of multistory buildings, 13th International Conferences on Indoor Air Quality and Climate. 7-12 July 2014, Hong Kong.
[4] C.M. Mak, Z.T. Ai, J.L. Niu, D.J. Cui, Numerical study of the effect of the size of balconies on natural ventilation performance, International Symposium on Public Health and Environmental Protection (PHEP), 28-29 May 2012, Macau.
[3] C. Li, Z.R. Li, W.X. Yao, Z.T. Ai, Effect of building manager’s behavior on energy use in public buildings, 7th International Symposium on Heating, Ventilating and Air Conditioning – Proceedings of ISHVAC 2011, 6-9 November 2011, Shanghai, China.
[2] Z.T. Ai, C.M. Mak, J.L. Niu, Z.R. Li, Q. Zhou, Numerical analysis of effect of balconies on wind-induced natural ventilation on low-rise buildings, Proceedings of 1st International Conference on Sustainable Urbanization, 15-17 December 2010, Hong Kong.
[1] Z.R. Li, Z.T. Ai, S. Yu, P. Li, The impact of shading on building daylighting and energy consumption, 6th International Symposium on Heating, Ventilating and Air Conditioning, 6-9 November 2009, Nanjing, China.
专  利 (1)[受理申请]一种可佩戴式防护口鼻的微型气幕系统. (2)[受理申请]一种口腔气幕隔离器. (3)[受理申请]一种医用可附于手术仪器表面的微型气幕系统 (4)[受理申请]一种医用可佩戴式防护口鼻的微型气幕系统 [受理申请]一种计算地下停车库CO释放率的方法
人才培养 正独立指导博士研究生1名,硕士研究生3名 正作为协助指导博士研究生3名,硕士研究生3名 曾协助指导已毕业博士研究生3名,硕士研究生7名
联系电话 0731-88821664 E-mail zhengtaoai@hnu.edu.cn
联系地址 湖南省长沙市岳麓区湖南大学土木工程学院