教授
姓名:艾正涛
学位:博士
职称:教授、博士生导师、国家级人才计划青年项目入选者
研究领域:建筑环境工程
通讯地址:湖南省长沙市岳麓区麓山南路湖南大学土木工程学院,410082
2024.12 -至今, 湖南大学土木工程学院副院长
2022.06 - 2024.12, 湖南大学土木工程学院院长助理
2019.05 -至今, 湖南大学建筑环境与能源工程系,教授、博士生导师、岳麓学者
2016.10 - 2019.04, 丹麦技术大学国际室内环境与能源中心,欧盟玛丽居里研究员
2015.05 - 2016.10, 香港理工大学屋宇设备工程系,博士后研究员
2011.09 - 2012.05, 香港理工大学屋宇设备工程系,研究助理
2012.07 - 2015.05,香港理工大学屋宇设备工程系,博士
2008.09 - 2011.03,同济大学供热供燃气通风及空调工程系,硕士
2009.09 - 2010.08,香港理工大学屋宇设备工程系,硕士交流学习
2004.09 - 2008.06,西南交通大学建筑环境与设备工程系,学士
2008.02 - 2008.06,新加坡淡马锡理工学院,本科交流学习。
[1]科技部国际合作项目,建筑环境职业暴露与安全防护,2025.01-2026.12,在研,主持
[2]国家自然科学基金,粘弹性聚合物冷却液对口腔诊疗过程颗粒生成和扩散的抑制机理和方法研究,2026.01-2029.12,在研,主持
[3]广州地铁集团有限公司,城市轨道交通车站通风空调系统综合能效检测及评估方法研究,2024.05-2025.08,在研,共同主持
[4]湖南省自然科学基金企业联合基金,医院平疫结合病区设计与压力梯度监控策略研究,2024.01-2026.12,在研,共同主持
[5]湖南省自然科学基金项目,口腔诊疗过程颗粒物喷溅源特性与局部微型气幕罩源头控制机理,2023.01-2025.12,在研,主持
[6]科技部国际合作项目,医疗建筑环境与院感防控,2022.01-2023.12,结题,主持
[7]国家自然科学基金重点项目(52130802),高能效建筑空调系统设计同时发生气象参数联合统计理论与方法,2022.01-2026.12,在研,参与,排名第二
[8]国际能源署-建筑与社区能源项目IEA-EBC-Annex 87 Personalized Environmental Control System,2022-2025,在研,中方主持之一
[9]杭州娃哈哈集团有限公司,饮料生产环境流体仿真,2021.11-2022.04,结题,主持
[10]中铁建集团有限公司,地铁车站环境与通风系统节能研究,2021.01-2021.12,结题,主持
[11]国家高层次人才计划青年项目,建筑环境生物安全与防护,2021.01年起,结题,主持
[12]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,结题,参与
[13]湖南大学土木工程学院高水平国(境)外学者项目,加拿大Sherbrooke大学学者,发展安全与节能的高层建筑通风系统,2021.01-2023.12,结题,主持
[14]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,结题,参与
[15][6]国家自然科学基金(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,2020.01-2022.12,结题,主持
[16]中央高校基本科研业务费,建筑环境健康与节能,2019起,在研,主持
[17]国际能源署-建筑与社区能源项目IEQ-EBC ANNEX80,Resilient Cooling for Residential and Small Commercial Buildings, 2019-2023,结题,中方主持
[18]丹麦Ramboll基金,Improved methodology for CO2 based design of building ventilation,2018-2020,结题,参与
[19]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,结题,主持
[20]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,结题,参与
与国内、欧盟及香港地区科研人员展开合作,主持参与科研项目20余项,发表SCI学术论文近90篇,参编行业标准3部,授权国家发明专利和软件著作权8项,通过欧盟玛丽居里校友会、111引智基地、科技部外专项目、国际能源署IEA-EBC-AIVC、IEA-EBC-Annex系列项目及国际期刊建设开展了广泛的国际合作。
论文汇总:https://scholar.google.com/citations?user=zi-4VZoAAAAJ&hl=en
A.学术论文(近3年)
[1]Aerosol dispersion dynamics and fallow time determination in a multi-chair dental officeJ Zong, Y Chang, Z Ai, Y Hu, Journal of Building Engineering, 113615
[2]Evolution of physiological, psychological, perceptual, and cognitive performance during a seven-day residence in underground working environmentS Ye, Z Jia, Z Ai, Building and Environment, 113457
[3]Data-driven modeling and sensitivity analysis of pressure differential deviations in pharmaceutical cleanrooms under static conditions and dynamic disturbancesY Chang, J Zong, Y Hu, Z Ai, W Zhang, W Zhao, Z Liu, R Zhang, Building Simulation, 1-20
[4]Characterizing volatile organic compounds from personal protective equipment users: implications to cleanroom air quality and occupational healthZ Jia, Z Zhang, H Tan, J Chen, L Zhu, L Wang, W Tan, Z Ai, Journal of Hazardous Materials, 138938
[5]Airborne bacteria and fungi in funeral home workspaces: a cross-seasonal investigation combining sequencing and culturingJ Ye, Z Ai, Building and Environment, 113161
[6]Indoor pollution of funeral homes and potential health risk of workers: A case study in central ChinaJ Ye, Z Ai, LW Chew, Building and Environment 272, 112677
[7]Quantifying the interaction between the ward background environment and the intensively controlled patients' micro-environmentW Su, Z Ai, B Yang, Building and Environment 270, 112532
[8]Field study on pressure differential mechanisms under static and dynamic disturbances in non-isobaric building zonesY Chang, Z Ai, J Zong, Z Liu, W Zhang, Energy and Buildings 328, 115183
[9]A critical review of in-duct ultraviolet germicidal irradiation systems: Mechanisms, challenges, and future directionsJ Ye, Z Ai, F Liu, P Wargocki, Process Safety and Environmental Protection, 106840
[10]A new personalized environment control system for hospital beds with design optimization by Taguchi-based grey relational analysisW Su, Z Ai, B Yang, Building and Environment 267, 112206
[11]Indoor environmental quality and subjective perceptions in multi-chair dental officesJ Zong, Z Ai, AK Melikov, S Cao, Building and Environment 267, 112196
[12]Mechanism of respiratory protective equipment in controlling wearer’s exhaled pollutantsZ Jia, Z Ai, C Zhang, Separation and Purification Technology 350, 128028
[13]Performance of latent heat storage exchangers: Evaluation framework and fast prediction modelW Su, Z Ai, B Yang, Renewable Energy 237, 121896
[14]Performance evaluation of high-volume evacuation for removing droplets during dental treatmentC Xing, Z Ai, CM Mak, HM Wong, Building Simulation 17 (12), 2263-2280
[15]A novel phase change material based personal environment control system for hospital wardsW Su, Z Ai, B Yang, Journal of Building Engineering 95, 110207
[16]A new ventilation performance index considering relative changes in environmental parameters: A numerical studyW Su, Z Ai, F Wang, B Yang, Journal of Building Engineering 94, 109963
[17]Impact of personal protective equipment on wearer's health indicators using multi-parameter physiological monitoringZ Jia, G Bekö, Z Zhang, L Zhong, Z Ai, Building and Environment 263, 111862
[18]Ventilative cooling of residential buildings in China: A simulation-based evaluation of lightweight modular integrated constructions considering climate changeY Hu, Z Ai, P Wargocki, Y Chang, G Zhang, Energy and Buildings 317, 114382
[19]Effectiveness of respiratory protective equipment in reducing inhalation and contact exposure risks of dental workers during ultrasonic scalingS Cao, Z Jia, C Xing, Z Ai, Physics of Fluids 36 (8)
[20]Improving inactivation performance of in-duct ultraviolet germicidal irradiation system with ribbed duct walls by optimizing UVC distributionJ Ye, P Wargocki, Z Ai, Building and Environment 259, 111650
[21]Micro-environment inside disposable medical protective clothing and its improvementZ Zhang, Z Jia, Z Ai, G Bekӧ, D Xie, M Tu, Building and Environment 258, 111641
[22]Design of convertible patient care unit for both non-pandemic and pandemic times: Prototype, building spatial layout, and ventilation designY Chang, Z Ai, P Wargocki, Y Liu, Y Hu, Building and Environment 258, 111597
[23]Effectiveness of respiratory protective equipment on source control of exhaled pollutantsZ Jia, Z Ai, S Cao, G Bekö, Journal of Building Engineering 86, 108742
[24]A mathematical model for accurately predicting face mask wearer’s inhalation exposure to self-exhaled and external pollutantsZ Jia, Z Ai, Z Zhang, CM Mak, HM Wong, Separation and Purification Technology 336, 126312
[25]Potential of a bed ventilation system in reducing the risk of exposure to contaminants in infectious wardsW Su, Z Ai, A Melikov, Journal of Building Engineering 84, 108525
[26]Rib-induced eddies increase inactivation efficiency and air handling capacity of in-duct ultraviolet germicidal irradiation systems with low energy costJ Ye, P Wargocki, Z Ai, Sustainable Cities and Society 102, 105240
[27]Characteristics of droplets emission immediately around mouth during dental treatmentsC Xing, Z Ai, Z Liu, CM Mak, HM Wong, Building and Environment 248, 111066
[28]Performance of low-volume air cleaner and local exhaust in mitigating airborne transmission in hospital outpatient roomsJ Zong, C Lin, Z Ai, Physics of Fluids 36 (1)
[29]The use of respiratory protective equipment redefines breathing zone and increases inhalation exposure of self-exhaled pollutantsZ Jia, Z Ai, G Bekö, Building and Environment 247, 111035
[30]Improving the CFD predictive accuracy of particle fate in turbulent duct flows: four key issues and applications in in-duct UVGI systemJ Ye, P Wargocki, Z Ai, Journal of Building Engineering 80, 108010
[31]Maintaining an acceptable indoor air quality of spaces by intentional natural ventilation or intermittent mechanical ventilation with minimum energy useW Su, Z Ai, J Liu, B Yang, F Wang, Applied Energy 348, 121504
[32]Cross-infection risk assessment in dental clinic: Numerical investigation of emitted droplets during different atomization proceduresX Li, CM Mak, Z Ai, KW Ma, HM Wong, Journal of Building Engineering 75, 106961
[33]Air infiltration and related building energy consumption: A case study of office buildings in Changsha, ChinaJ Hu, Z Liu, G Ma, G Zhang, Z Ai, Journal of Building Engineering 74, 106859
[34]Coincident design day application method for indoor design cooling load calculation under atypical exterior wall situationsZ Fang, Y Chen, Z Ai, H Li, Journal of Building Engineering 72, 106639
[35]Accurate evaluation of inhalation exposure based on CFD predicted concentration in the breathing zone towards personalized and smart controlJ Zong, Z Ai, G Ma, Journal of Building Engineering 71, 106404
[36]A cost-effectiveness assessment of the operational parameters of central HVAC systems during pandemicsY Chang, Z Ai, J Ye, G Ma, Building Simulation 16 (5), 667-682
[37]Performance evaluation of ventilative cooling systems for buildings under different control parameters and strategiesY Hu, Z Liu, Z Ai, G Zhang, Journal of Building Engineering 65, 105627
[38]Numerical investigation of the impacts of environmental conditions and breathing rate on droplet transmission during dental serviceX Li, CM Mak, Z Ai, KW Ma, HM Wong, Physics of Fluids 35 (4)
[39]Towards an accurate CFD prediction of airflow and dispersion through face maskZ Jia, Z Ai, X Yang, CM Mak, HM Wong, Building and Environment 229, 109932
[40]Investigation of convective heat transfer at the facade with balconies for a multi-story buildingS Tao, N Yu, ZT Ai, K Zhao, F Jiang, Journal of Building Engineering 63, 105420
B.专利软著
[1]一种医用可佩戴式防护口鼻的微型气幕系统
[2]一种医用可附于手术仪器表面的微型气幕系统
[3]一种平疫两用的室内空气质量监测评价方法及装置
[4]一种垂直地热通风与相变蓄能地板新风耦合系统
[5]基于蓄能的Trombe墙与垂直套管式换热系统互补被动房
[6]一种基于空气-水-相变-土壤换热的新型智能通风冷却系统
[7]一种服务于医疗建筑的智慧流调与管理系统
[8]一种可精确测量口罩缝隙污染物泄漏的装置及方法
[9]一种具有负泊松比效应的口罩
[10]一种基于储能的高效垂直套管式地热通风冷却系统
[11]一种基于相变材料的病床送风装置及其控制方法
[12]一种医用消毒个体通风净化座椅及其控制方法
[13]一种牙科诊室内体外磨牙兼颗粒物收集处理系统
[14]一种口腔气幕隔离器
[15]一种医用可附于手术仪器表面的微型气幕系统
[16]一种可佩戴式防护口鼻的微型气幕系统
[17]一种计算地下停车库CO释放率的新方法
[18]垂直地热通风系统模拟平台V1.0
[19]建筑通风冷却潜力计算软件
C.标准编制
[1]《通风系统用空气净化消毒装置运行效果监测标准》,中国工程建设标准化协会,参编.
[2]《医用洁净装备工程实施指南》,中国建筑文化研究会医院建筑与文化分会,参编.
D.其他报告
[1] J.J. Ye, C. Lin, J. Liu, Z.T. Ai*, G.Q. Zhang, 2021, HVAC system use in China during the pandemic of COVID-19, AIVC Newsletter Special Issue COVID-19, July 2021.
[2] C.M. Mak, Z.T. Ai, D. Yang, Envelope design to improve ventilation performance of residential buildings in dense urban environment, included in“Hong Kong Report on the State of Sustainable Built Environment 2017”, Hong Kong.
[1]欧盟研资局玛丽居里学者,2016
[2]湖南大学岳麓学者,2019,青矩学者,2021
[3]湖南大学新入职教师讲课比赛三等奖,2019
[4]国家高层次人才计划青年项目,2020
[5]湖南省制冷学会学术年会优秀论文奖,2021
[6]中国饮料行业科技创新论文奖三等奖,2021
[7]室内环境与健康大会优秀论文奖,2025
湖南大学-国家卓越工程师学院 版权所有
校址:湖南省长沙市岳麓区麓山南路麓山门 | 邮箱:zgxy@hnu.edu.cn | 邮编:410082
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