师资队伍
个人简历
赖达祎,上海交通大学设计学院长聘教轨副教授,博士生导师,建筑学系副系主任。2017年取得美国普渡大学博士学位。入选上海市晨光计划和青年科技英才扬帆计划。主要研究方向为城市热环境,致力于通过“城市-气候-人员”系统的研究,营造以人为中心的气候适应型城市。
主持国家自然科学基金、国家重点研发计划子课题、上海市科委、上海市教委等项目。在BAE、AUTOCON、CEUS、Appl. Energy、SCS、ENB、UFUG、JOBE、Build. Simul.、Urban Clim.、JCLEPRO、STOTEN、Nature Cities等期刊和重要学术会议上发表学术论文118篇,包括68篇SSCI/SCI论文(43篇为一作或通讯,3篇一作或通讯为ESI高被引论文)。入选斯坦福大学前2%全球顶尖科学家榜单。Google Scholar引用4700余次,H因子34。授权实用新型专利2项,软件著作权1项。担任《Building and Environment》期刊编辑,《Building Simulation》期刊青年编委,担任50本国际期刊,多个国际会议和英文出版物的审稿人,是Healthy Building、Building Simulation、COBEE、ISHVAC等重要国际会议组委会委员或分会场主席。关于密闭空间新冠病毒传播和感染的研究曾被Wiley出版社头条报道,并被Science Daily,Dailymail(每日邮报),EureAlert等多媒体转载报道。
教育经历
2017年5月,普渡大学,机械工程,博士
2013年1月,天津大学,供热,供燃气,通风与空调工程,硕士
2010年7月,哈尔滨工业大学,建筑环境与设备工程,学士
工作经历
2021年1月-至今,上海交通大学,设计学院,建筑系,长聘教轨副教授
2018年9月-2020年12月,上海交通大学,设计学院,建筑系,长聘教轨助理教授
研究方向
2021,上海交通大学,黄金枝奖研金
2020,上海交通大学,优秀班主任
2019,上海市”青年科技英才杨帆计划”,上海市科委
2018,上海市“晨光计划”,上海市教委
2013,Ross Fellowship,普渡大学
2012,国家建设高水平公派研究生奖学金,国家留学基金委
2010,优秀毕业生,哈尔滨工业大学
期刊论文, SSCI/SCI (*通讯作者)
2025
1. Qian, W., Rao, F.**, Li, X., & Lai, D.* (2025). Mapping Priority Zones for Urban Heat Mitigation in Shanghai: Heat Risk vs. Shelter Provision. Computers, Environment and Urban Systems. 121, 102330.
2. Sun, R., Yun, W., Kang, Y., & Lai, D.* (2025). Numerical evaluation of airborne viral transmission in outdoor crowd gatherings. Building and Environment, 282, 113252.
3. Sun, R., Liu, W.*, Shi, K., & Lai, D.** (2025). Fast Estimation and Evaluation of Outdoor Thermal Environment on a Long-Term Basis in Complex Urban Environments. Accepted by Building Simulation.
4. Hu, X., Zheng, H., & Lai, D.* (2025). Prediction and optimization of daylight performance of AI-generated residential floor plans. Building and Environment, 279, 113054.
5. Lyu, J., Yang, Y., Lai, D., Lan, L., Zhao, Z., Du, H., & Lian, Z. (2025). Analysis of occupant thermal comfort and energy-saving potential based on cooling behaviors in residential buildings: A case study of Shanghai. Building and Environment, 275, 112792.
2024
1. Rao, F., Xiao, P., Zhang, Y.**, & Lai, D.* (2024). Unravelling key environmental factors influencing urban park visits: Thermal comfort and air quality. Urban Climate, 57, 102096.
2. Sun, R., Lai, D.*, & Liu, W.** (2024). A computationally affordable and reasonably accurate approach for annual outdoor thermal comfort assessment on an hourly basis. Energy and Buildings, 316, 114323.
3. Wen, S., Xue, J.*, Hua, G., & Lai, D.** (2024). Reconstructing fisheye luminance maps with a two-step network from a single low dynamic range image. Automation in Construction, 160, 105294.
4. Yu, Z., Bu, K., Liu, Y., Wang, A., Yuan, W., Xue, J., Zhang, J., Bao, H., & Lai, D.* (2024). Energy examination and optimization workflow for container farms: A case study in Shanghai, China. Applied Energy, 374, 124038.
5. Lyu, J., Yang, Y., Lai, D., Lan, L., & Lian, Z. (2024). Exploring the correlation and synchronicity between environmental factors and occupant thermal response in dynamic outdoor cabin environments. Building and Environment, 261, 111727.
2023
1. Lai, D., Liu, Y., Liao, M., & Yu, B. (2023). Effects of different tree layouts on outdoor thermal comfort of green space in summer Shanghai. Urban Climate, 47, 101398.
2. Chen, C., Liu, F., Liu, S., Liu, J., Lai, D.*, & Chen, Q. (2023). A novel method for designing general and local ventilation systems for a manufacturing plant. Energy and Buildings, 299, 113612.
3. Fan, Y., Xue, J.*, Zheng, H., & Lai, D.** (2023). Draw to shade: A personalized daylighting regulation method through user-involved paintings for enhanced indoor visual comfort and aesthetics experience. Journal of Building Engineering, 80, 108014.
4. Sun, R., Liu, J., Lai, D.*, & Liu, W.** (2023). Building form and outdoor thermal comfort: Inverse design of the microclimate of outdoor space for a kindergarten. Energy and Buildings, 299, 113612.
5. Zhang, Y., Rao, F., Xue, J., & Lai, D.* (2023). Dependence of urban park visits on thermal environment and air quality. Urban Forestry & Urban Greening, 79, 127813.
6. Wen, S., Hu, X., Hua, G., Xue, P., & Lai, D.* (2023). Comparing the performance of four shading strategies based on a multi-objective genetic algorithm: A case study in a university library. Journal of Building Engineering, 63, 105532.
7. Liu, W., Zhang, T., & Lai, D.* (2023). Inverse design of a thermally comfortable indoor environment with a coupled CFD and multi-segment human thermoregulation model. Building and Environment, 227, 109769.
8. Lyu, J., Li, J., Zhao, Z., Miao, X., Du, H., Lai, D., Yang, Y., & Lian, Z. (2023). How do people set air conditioning temperature setpoint in urban domestic–Behavior model in Chinese three climate zones based on historical usage data. Energy and Buildings, 284, 112856.
9. Fan, Y., Cao, X., Zhang, J., Lai, D., & Pang, L. (2023). Short-term exposure to indoor carbon dioxide and cognitive task performance: A systematic review and meta-analysis. Building and Environment, 110331.
10. Du, H., Lian, Z., Lan, L., & Lai, D. (2023). Application of statistical analysis of sample size: How many occupant responses are required for an indoor environmental quality (IEQ) field study. Building Simulation, 1–12.
2022
1. Chen, C., Lai, D.*, & Chen, Q. (2022). Empirical and numerical study of pollutant leakage caused by human arm movement through machine enclosure. Journal of Cleaner Production, 379, 134726.
2. Chen, J., Shao, S., Zhu, Y., Wang, Y., Rao, F., Dai, X.*, & Lai, D.** (2022). Enhanced automatic identification of urban community green space based on semantic segmentation. Land, 11(6), 905.
3. Tao, C., Li, J., Zhou, D., Sun, J., Peng, D., & Lai, D.* (2022). Outdoor space quality mapping by combining accessibility, openness, and microclimate: A case study in a neighborhood park in Shanghai, China. Sustainability, 14(6), 3570.
4. Wang, W., Wang, F., Lai, D.*, & Chen, Q. (2022). Evaluation of SARS-CoV-2 transmission and infection in airliner cabins. Indoor Air, 32, e12979.
5. Liu, K., Lian, Z., Dai, X., & Lai, D.* (2022). Comparing the effects of sun and wind on outdoor thermal comfort: A case study based on longitudinal subject tests in cold climate region. Science of the Total Environment, 825, 154009.
6. Nie, T., Lai, D., Liu, K., Lian, Z., Yuan, Y., & Sun, L. (2022). Discussion on inapplicability of Universal Thermal Climate Index (UTCI) for outdoor thermal comfort in cold region. Urban Climate, 46, 101304.
7. Liu, S., Xie, Y., Zhu, Y., Lin, B., Cao, B., Wong, N. H., Niu, J., Fang, Z., Lai, D., Liu, W., Wen, J., Mou, D., Tang, H., Liu, Z., & Ignatius, M. (2022). Comparative analysis on indoor and outdoor thermal comfort in transitional seasons and summer based on multiple databases: Lessons learnt from the outdoors. Science of the Total Environment, 848, 157694.
8. Du, H., Lian, Z., Lai, D., Duanmu, L., Zhai, Y., Cao, B., Zhang, Y., Zhou, X., Wang, Z., Zhang, X., & Hou, Z. (2022). Evaluation of the accuracy of PMV and its several revised models using the Chinese Thermal Comfort Database. Energy and Buildings, 271, 112334.
9. Du, H., Lian, Z., Lai, D., Duanmu, L., Zhai, Y., Cao, B., Zhang, Y., Zhou, X., Wang, Z., Zhang, X., & Hou, Z. (2022). Comparison of thermal comfort between radiant and convective systems using field test data from the Chinese Thermal Comfort Database. Building and Environment, 209, 108685.
2021
1. Lai, D., Liu, J., Wu, Z., Pei, J., Qi, Y., Zhang, H., & Yoshino, H. (2021). Thermal comfort diversity in Chinese urban residential buildings across various climates. Energy and Buildings, 213, 110632.
2. Zhou, X., Lai, D.*, & Chen, Q. (2021). Evaluation of thermal sensation models for predicting thermal comfort in dynamic outdoor and indoor environments. Energy and Buildings, 238, 10847.
3. Liu, W., Sun, H., Lai, D., Xue, Y., Kabanshi, A., & Hu, S. (2021). Performance of fast fluid dynamics with a semi-Lagrangian scheme and an implicit upwind scheme in simulating indoor/outdoor airflow. Building and Environment, 108477.
4. Qiu, L., Zhang, H., Zhang, W., Lai, D., & Li, R. (2021). Effect of existing residential renovation strategies on building cooling load: Cases in three Chinese cities. Energy and Buildings, 253, 111548.
5. An, Y., Xia, T., You, R., Lai, D., Liu, J., & Chen, C. (2021). A reinforcement learning approach for control of window behavior to reduce indoor PM₂.₅ concentrations in naturally ventilated buildings. Building and Environment, 200, 107978.
6. Xue, P., Jia, X., Lai, D., Zhang, X., Fan, C., Zhang, W., & Zhang, N. (2021). Investigation of outdoor pedestrian shading preference under several thermal environment using remote sensing images. Building and Environment, 200, 107934.
7. Xia, T., Qi, Y., Dai, X., Liu, J., Xiao, C., You, R., Lai, D., Liu, J., & Chen, C. (2021). Estimating long-term time-resolved indoor PM₂.₅ of outdoor and indoor origin using easily obtainable inputs. Indoor Air (accepted).
8. Du, H., Lian, Z., Lai, D., Liu, W., Duanmu, L., Zhai, Y., Cao, B., Zhang, Y., Zhou, X., Wang, Z., & Zhang, X. (2021). Method of determining acceptable air temperature thresholds in Chinese HVAC buildings based on a data-driven model. Energy and Buildings, 241, 110920.
9. Hou, J., Sun, Y., Dai, X., Liu, J., Shen, X., Tan, H., Yin, H., Huang, K., Gao, Y., Lai, D., Hong, W., Zhai, X., Norbäck, D., & Chen, Q. (2021). Associations of indoor carbon dioxide concentrations, air temperature and humidity with perceived air quality and sick building syndrome symptoms in Chinese homes. Indoor Air (accepted).
10. Liu, J., Liu, J., Lai, D., Pei, J., & Wei, S. (2021). A field investigation of the thermal environment and adaptive thermal behavior in bedrooms in different climate regions in China. Indoor Air (accepted).
2020
1. Lai, D., Lian, Z., Liu, W., Guo, C., Liu, W., Liu, K., & Chen, Q. (2020). A comprehensive review of thermal comfort studies in urban open spaces. Science of the Total Environment, 742, 140092.
2. Lai, D.*, Chen, B., & Liu, K. (2020). Quantification of the influence of thermal comfort and life patterns on outdoor space activities. Building Simulation, 13, 113–125.
3. Qi, Y., Liu, J., Lai, D.*, Zhang, H., Cao, X., Wei, S., & Yoshino, H. (2020). Large-scale and long-term monitoring of the thermal environments and adaptive behaviors in Chinese urban residential buildings. Building and Environment, 106524.
4. Liu, K., Nie, T., Liu, W., Liu, Y., & Lai, D.* (2020). A machine learning approach to predict outdoor thermal comfort using local skin temperatures. Sustainable Cities and Society, 59, 102216.
5. Chen, C., Lai, D.*, & Chen, Q. (2020). Energy analysis of three ventilation systems for a large machining plant. Energy and Buildings, 224, 110272.
6. Wei, G., Chen, B., Lai, D.*, & Chen, Q. (2020). An improved displacement ventilation system for a machining plant. Atmospheric Environment, 228, 117419.
7. Zhou, X., Lai, D.*, & Chen, Q. (2020). Thermal sensation model for driver in a passenger car with changing solar radiation. Building and Environment, 183, 107219.
8. Xue, J., You, R., Liu, W., Chen, C., & Lai, D.* (2020). Applications of local climate zone classification scheme to improve urban sustainability: A bibliometric review. Sustainability, 12, 8083.
9. Xue, J., Hu, X., Sani, S. N., Wu, Y., Li, X., Chai, L., & Lai, D.* (2020). Outdoor thermal comfort at a university campus: Studies from personal and long-term thermal history perspectives. Sustainability, 12, 9284.
10. Shi, Z., Lai, D., & Chen, Q. (2020). Performance evaluation and design guide for a coupled displacement-ventilation and passive-chilled-beam system. Energy and Buildings, 108, 109654.
2019
1. Lai, D., Liu, W., Gan, T., Liu, K., & Chen, Q. (2019). A review of mitigating strategies to improve the thermal environment and thermal comfort in urban outdoor spaces. Science of the Total Environment, 661, 337–353.
2. Lai, D.**, Chen, C.* (2019). Comparison of the linear regression, multinomial logit, and ordered probability models for predicting the distribution of thermal sensation. Energy and Buildings, 188–189, 269–277.
3. Zhou, X., Lai, D.*, & Chen, Q. (2019). Experimental investigation of thermal comfort in a passenger car under driving conditions. Building and Environment, 149, 109–119.
2018
1. Lai, D., Qi, Y., Liu, J., Dai, X., Zhao, L., & Shen, W. (2018). Ventilation behavior in residential buildings with mechanical ventilation systems across different climate zones in China. Building and Environment, 143, 679–690.
2. Lai, D., Jia, S., Qi, Y., & Liu, J. (2018). Window-opening behavior in Chinese residential buildings across different climate zones. Building and Environment, 142, 234–243.
3. Lai, D., Chen, C., Liu, W., Shi, Y., & Chen, C. (2018). An ordered probability model for predicting outdoor thermal comfort. Energy and Buildings, 168, 261–271.
4. Liu, J., Dai, X., Li, X., Jia, S., Pei, J., Sun, Y., Lai, D., et al. (2018). Indoor air quality and occupants’ ventilation habits in China: Seasonal measurement and long-term monitoring. Building and Environment, 143, 119–129.
5. Zhao, X., Liu, W., Lai, D., & Chen, Q. (2018). Optimal design of indoor environment by the CFD-based adjoint method with area constrained topology and cluster analysis. Building and Environment, 138, 171–180.
6. Jia, S., Lai, D., Kang, J., Li, J., & Liu, J. (2018). Evaluation of relative weights for temperature, CO₂, and noise in aircraft cabin environment. Building and Environment, 131, 108–116.
7. Chen, C., Zhao, B., Lai, D., & Liu, W. (2018). A simple method for differentiating direct and indirect exposure to exhaled contaminants in mechanically ventilated rooms. Building Simulation, 11(5), 1039-1051.
2017
1. Lai, D., Zhou, X., & Chen, Q. (2017). Measurements and predictions of the skin temperature of human subjects on outdoor environments. Energy and Buildings, 151, 476–486.
2. Lai, D., Zhou, X., & Chen, Q. (2017). Modeling dynamic thermal sensation of human subjects in outdoor environments. Energy and Buildings, 149, 16–25.
2016
1. Lai, D., & Chen, Q. (2016). A two-dimensional model for calculating heat transfer in the human body in a transient and non-uniform thermal environment. Energy and Buildings, 118, 114–122.
2015
1. Lai, D., Karava, P., & Chen, Q. (2015). Study of outdoor ozone penetration into buildings through ventilation and infiltration. Building and Environment, 93, 112–118.
2. Zhou, H., Li, W., Chen, Y., Lai, D., Sun, H., & Chen, Q. (2015). A case study of industrial building energy performance in a cold climate region in a developing country. Journal of Performance of Constructed Facilities. DOI:10.1061/(ASCE)CF.1943-5509.0000735.
2014
1. Lai, D., Guo, D., Hou, Y., Lin, C., & Chen, Q. (2014). Studies of outdoor thermal comfort in northern China. Building and Environment, 77, 110–118.
2. Lai, D., Zhou, C., Huang, J., Jiang, Y., Long, Z., & Chen, Q. (2014). Outdoor space quality: A field study in an urban residential community in central China. Energy and Buildings, 68, 713–720.
3. Liu, S., Liu, J., Yang, Q., Pei, J., Lai, D., Cao, X., Chao, J., & Zhou, C. (2014). Coupled simulation of natural ventilation and daylighting for a residential community design. Energy and Buildings, 68, 686–695.
2012
1. Liu, W., Wen, J., Chao, J., Yin, W., Chen, S., Lai, D., Lin, C., Liu, J., Sun, H., & Chen, Q. (2012). Accurate and high-resolution boundary conditions and flow fields in the first-class cabin of an MD-82 commercial airliner. Atmospheric Environment, 56, 33–44.
期刊论文,其他
1. Rao, F., Zhao, H., Han, S., Kong, Y., Lai, D., & Lu, T. (2024). Transformative resilience of Wuhan’s city-center main streets in the post-COVID era. Nature Cities, 1, 378–389.
2. Bu, K., Yu, Z., Lai, D., & Bao, H. (2024). Energy-saving effect assessment of various factors in container plant factories: A data-driven random forest approach. Cleaner Energy Systems, 8, 100122.
3. Zhao, Q., Lian, Z., & Lai, D. (2021). Thermal comfort models and their developments: A review. Energy and Built Environment, 2, 21–33.
4. 陶聪, 李佳芯, & 赖达祎* (2021). 城市公共活动空间质量评价与优化策略研究. 规划师, 21, 75–83.
5. 薛娇*, 范佚阁, 赖达祎, & 岳佳彤 (2024). 建筑光环境的用户视角:自然光调节的参数化设计案例研究. 装饰, 4, 127–129.
6. 洪伟萍, 刘俊杰*, & 赖达祎 (2019). 全国 9 座城市住宅主观睡眠热舒适及人员适应性行为长期监测研究. 暖通空调, 49, 1–7.
7. 赖达祎, 周超斌, 姜漪, & 刘俊杰* (2012). 基于 ASV 的室外开放空间热舒适度模型及模拟程序开发研究. 生态城市与绿色建筑, 1, 30–33.
会议论文
2025
1. Sun R., Liu W., Lai, D.* (2025). Simulation and evaluation of hourly outdoor thermal environment on an annual basis. 12th International Conference on Urban Climate (ICUC 12), Rotterdam, The Netherlands.
2. 李晨丰, 林子俊, 戴承霖, 董书贺, 唐元东, 李昂, 白直帆, 赖达祎* (2025). 上海地区室外空间冬季热舒适阈值研究. 第16届建筑物理学术大会, 重庆.
3. 赖达祎, 刘泳芝, 薛娇 (2025). 基于实时视频与计算机视觉的室外遮阳行为研究. 第十二届全国室内环境与健康大会(IEHB 2025), 大连.
2024
1. Hua G., Zhang Y., Hao Z., Zhang Z., Lai, D.* (2024). Optimizing serrated window designs for daylight and glare control on west-facing office façades. International Conference on Sustainable Energy and Green Technology (SEGT 2024), Bangkok, Thailand.
2. Hu X., Zheng H., Lai, D.* (2024). Performance prediction of AI-generated architectural layout design: using daylight performance of residential floorplans as an example. Computational Design Symposium 2024 (CDAC 2024), Shanghai, China.
2023
1. Wen S., Hu X., Hua G., Peng X., Lai, D.* (2023). A genetic-algorithm-based framework for assessing the performance of shading strategies. 18th Conference of the International Building Performance Simulation Association (Building Simulation 2023), Shanghai, China.
2. Yun W., Rao F., Liu S., Sun R., Lai, D.* (2023). Numerical evaluation of SARS-CoV-2 transmission and infection when queuing in outdoor spaces. Healthy Buildings 2023 – Asia and Pacific Rim, Tianjin, China.
3. Sun R., Chen D., Xu Y., Lai, D.*, Liu W. (2023). Building form and outdoor thermal comfort: inverse design of the micro-climate of outdoor space for a kindergarten. 11th International Conference on Indoor Air Quality, Ventilation & Energy Conservation in Buildings (IAQVEC 2023), Tokyo, Japan.
4. Yu Z., Liu Y., Wang A., Xue J., Zhang J., Bao H., Yuan W., Lai, D.* (2023). Energy consumption of air conditioning in container plant factories during summer cycle in Shanghai, China. 12th International Symposium on Heating, Ventilation and Air-Conditioning (ISHVAC 2023), Beijing, China.
5. Hua G., Lai, D., Zhang Z. (2023). Finding an optimal angle to balance daylight and glare for serrated windows at west façades in a typical office based on numerical simulation. 18th Conference of the International Building Performance Simulation Association (Building Simulation 2023), Shanghai, China.
6. 孙睿, 刘炜, 赖达祎* (2023). 室外空间微气候逆向设计:以某幼儿园为例. 第15届建筑物理学术大会 , 上海.
2021
1. Nie T., Liu K., Lai, D.* (2021). Physiological responses and thermal perception to outdoor environments in cold regions of China. 22nd International Congress of Biometeorology, Virtual.
2. Liu W., Xue Y., Lai, D.* (2021). A combined CFD-based genetic algorithm and human-body thermoregulation model for designing the indoor thermal environment. 17th Conference of the International Building Performance Simulation Association (Building Simulation 2021), Bruges, Belgium.
3. 王文思, 赖达祎*, 陈清焰 (2021). 客机机舱内新冠病毒的传播和感染数值研究. 第十届中国环境科学学会室内环境与健康分会学术年会(IEHB 2021), 武汉.
2020
1. 聂婷, 王婧, 赖达祎, 刘魁星 (2020). 严寒气候区城市室外微环境对热适应行为的影响. 第十四届环境行为学会国际会议 , 西安.
2019
2. Lai, D., Chen C., You R., Chen C. (2019). Estimating thermal sensation probability distribution using three models. 16th Conference of the International Building Performance Simulation Association (Building Simulation 2019), Rome, Italy.
3. Lai, D., Liu W., Huang X., Gan T., Liu K., Chen Q. (2019). A review of strategies for mitigating outdoor thermal environment. 10th International Symposium on Heating, Ventilation and Air-Conditioning (ISHVAC 2019), Harbin, China.
4. Qi Y., Liu J., Lai, D.*, Liu Z. (2019). Investigation of indoor thermal environments in Chinese residential buildings. 10th International Symposium on Heating, Ventilation and Air-Conditioning (ISHVAC 2019), Harbin, China.
5. Liu K., Liu W., Gan T., Lai, D.*, Liu G. (2019). Influences of different meteorological parameters on outdoor thermal comfort in cold-climate regions in China. 10th International Symposium on Heating, Ventilation and Air-Conditioning (ISHVAC 2019), Harbin, China.
6. Liu K., Liu W., Gan T., Lai, D.*, Liu G. (2019). Effects of space geometry, season and weather condition on components of outdoor thermal radiation. 10th International Symposium on Heating, Ventilation and Air-Conditioning (ISHVAC 2019), Harbin, China.
7. Qi Y., Liu J., Dai X., Zhao L., Lai, D.*, Wei S. (2019). Investigation of ventilation behaviours in mechanically ventilated residential buildings in China. 13th REHVA World Congress on Heating, Ventilation and Air-Conditioning (CLIMA 2019), Bucharest, Romania.
8. Hong W., Liu J., Lai, D.* (2019). Studies of subjective sleep thermal comfort and adaptive behaviours in Chinese residential buildings in nine cities. 13th REHVA World Congress on Heating, Ventilation and Air-Conditioning (CLIMA 2019), Bucharest, Romania.
9. Zhou X., Liu S., Liu X., Zhang W., Li J., Dong J., Lai, D.*, Chen Q. (2019). Evaluation of four models for predicting thermal sensation in Chinese residential kitchens. 13th REHVA World Congress on Heating, Ventilation and Air-Conditioning (CLIMA 2019), Bucharest, Romania.
10. Zhao Q., Lian Z., Luo Y., Lai, D. (2019). A new calculation method of mean skin temperature under local thermal stimulation. Healthy Buildings 2019 – Asia and Pacific Rim (HB 2019), Changsha, China.
11. Liu J., Liu J., Lai, D. (2019). Long-term monitoring of sleep thermal environment in China. Healthy Buildings 2019 – Asia and Pacific Rim (HB 2019), Changsha, China.
12. Wu J., Zheng Z., Lian Z., Lai, D. (2019). Principal factors affecting the accuracy of real-time power-monitoring data in large public buildings. 10th International Symposium on Heating, Ventilation and Air-Conditioning (ISHVAC 2019), Harbin, China.
13. Wei G., Lai, D., Chen Q. (2019). Displacement ventilation for machining plants with high oil-mist concentration. 10th International Symposium on Heating, Ventilation and Air-Conditioning (ISHVAC 2019), Harbin, China.
14. Liu S., Zhou X., Liu X., Qing K., Zhang W., Li J., Dong J., Lai, D., Chen Q. (2019). Assessment of thermal environment in a kitchen with a new ventilation system. 13th REHVA World Congress on Heating, Ventilation and Air-Conditioning (CLIMA 2019), Bucharest, Romania.
15. Huang Y., Lai, D., Liu Y., Xuan H. (2019). Impact of climate change on outdoor thermal comfort in cities in the United States. 7th International Conference on Environment Pollution and Prevention (ICEPP 2019), Melbourne, Australia.
16. 甘婷婷, 刘魁星, 刘刚, 赖达祎 (2019). 寒冷地区热环境参数对室外热感觉的影响研究. 2019年暖通空调模拟学术年会 .
2018
1. Lai, D., Chen C., Liu W., Shi Y., Chen C.* (2018). An outdoor thermal comfort model for predicting the probability distribution of thermal sensation. 15th Conference of the International Society of Indoor Air Quality & Climate (Indoor Air 2018), Philadelphia, USA.
2. Lai, D., Zhou X., Chen Q. (2018). Developing a dynamic thermal sensation model for outdoor spaces. 4th International Conference on Building Energy and Environment (COBEE 2018), Melbourne, Australia.
3. Zhou X., Lai, D.*, Chen Q. (2018). Experimental investigations of thermal comfort in a passenger car under driving conditions. 15th Conference of the International Society of Indoor Air Quality & Climate (Indoor Air 2018), Philadelphia, USA.
4. Qi Y., Jia S., Lai, D.*, Liu J. (2018). Determination of window-operation schedules in Chinese residential buildings. 15th Conference of the International Society of Indoor Air Quality & Climate (Indoor Air 2018), Philadelphia, USA.
2017
1. Lai, D., Zhou X., Chen Q. (2017). Studies of dynamic human skin temperature in outdoor thermal environments. 10th International Symposium on Heating, Ventilation and Air-Conditioning (ISHVAC 2017), Jinan, China.
2016
1. Lai, D., Chen Q. (2016). A model for calculating heat transfer in the human body under transient and non-uniform thermal environments. 14th International Conference on Indoor Air Quality and Climate (Indoor Air 2016), Ghent, Belgium.
2015
1. Lai, D., Chen Q. (2015). An ordered probability model for outdoor thermal comfort. 9th International Symposium on Heating, Ventilating and Air-Conditioning (ISHVAC 2015) & 3rd International Conference on Building Energy and Environment (COBEE 2015), Tianjin, China.
2013
1. Lai, D., Chen Q. (2013). Outdoor thermal comfort in northern China. 11th REHVA World Congress on Heating, Ventilation and Air-Conditioning (CLIMA 2013), Prague, Czech Republic.
2012
1. Lai, D., Zhou C., Huang J., Chen Q., Jiang Y. (2012). Outdoor space quality study in a housing community in subtropical urban areas. 2nd International Conference on Building Energy and Environment (COBEE 2012), Colorado Springs, USA.
2. Lai, D., Liu S., Liu J., Zhou C., Chen Q. (2012). A comprehensive method to assess outdoor thermal environment in housing community. 10th International Healthy Buildings Conference (HB 2012), Brisbane, Australia.
3. Liu S., Lai, D., Liu J., Zhou C. (2012). Prediction of natural-ventilation performance of a residential community. 2nd International Conference on Building Energy and Environment (COBEE 2012), Colorado Springs, USA.
2011
1. 赖达祎, 刘素梅, 刘俊杰, 姜漪, 魏景姝, 周超斌 (2011). 居住小区室外热环境耦合评价方法的研究. 2011年全国通风技术学术年会, 重庆.
2. 刘素梅, 赖达祎, 刘俊杰, 陈清焰, 姜漪, 魏景姝, 周超斌 (2011). 重庆地区某小区室外自然通风潜力预测研究. 2011年全国通风技术学术年会, 重庆.
本科生课程:生态建筑概论、建筑设备
研究生课程:建筑环境与设计、学术报告会
