- 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 | 男 | ![]() |
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. |
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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 | 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 |