(1) Zheng Jiacheng, Yu Tao*,  Lei Bo, Lv Ruixin. Study on the influencing factors of thermal performance of radiant heating floor with the intensive solar irradiation. Applied Thermal Engineering, 2023, 232,文献号:121077.

(2) Luo Xiujing, Yu Tao*,  Lei Bo. Experimental investigation on the heat transfer performance of ventilated floor with the influence of solar radiation. Applied Thermal Engineering, 2023, 229,文献号:120551.

(3) Qian Bin, Yu Tao*, Zhang Chen, Heiselberg Per, Lei Bo, Yang Li. A method of determining typical meteorological year for evaluating overheating performance of passive buildings. Building Simulation, 2023, 16(4): 511-526.

(4) Zheng Jiacheng, Yu Tao*,  Lei Bo, Luo Xiujing. Evaluation of the thermal performance of radiant floor heating system with the influence of unevenly distributed solar radiation based on the theory of discretization. Building Simulation, 2023, 16(1): 105-120.

(5) Yu Tao*, Zhao Jiangdong, Zhou Jiri, Lei Bo. Experimental investigation of thermal performance of a heating system combining solar air collector with hollow ventilated interior wall. Renewable Energy, 2020, 147:1825-1835.

(6) Yu Tao*, Zhao Jiangdong, Zhou Jiri, Lei Bo. Experimental and numerical studies on dynamic thermal performance of hollow ventilated interior wall. Applied Thermal Engineering, 2020, 180,文献号:115851.

(7) Yu Tao*, Liu Bowan, Lei Bo, Yuan Yanping, Bi Haiquan, Zhang Zili. Thermal performance of a heating system combining solar air collector with hollow ventilated interior wall in residential buildings on Tibetan Plateau. Energy, 2019, 182: 93-109.

(8) Zhou Jiri, Yu Tao*, Wu Hao, Lei Bo, Zheng Jiacheng, Ji Wenhui. A dynamic model of hollow ventilated interior wall integrated with solar air collector. Applied Thermal Engineering, 2020, 175,文献号:115380.

(9) Qian Bin, Yu Tao*, Bi Haiquan, Lei Bo. Measurements of Energy Consumption and Environment Quality of High-Speed Railway Stations in China. Energies, 2020, 13(1), 文献号:168.

(10) Zhou Jiri, Yu Tao*, Lei Bo. Experimental study on the influence of solar heat gain on the thermal performance of hollow ventilated interior wall. Journal of Solar Energy Engineering- Transactions of the ASME, 2022, 144(3):031001.

(11) Tao Yu*, Per Heiselberg, Bo Lei, Chen Zhang, Michal Pomianowski, Rasmus Jensen, Experimental study on the dynamic performance of a novel system combining natural ventilation with diffuse ceiling inlet and TABS, Applied Energy, 2016, 169: 218-229.

(12) Tao Yu*, Per Heiselberg, Bo Lei, Michal Pomianowski, Chen Zhang, Rasmus Jensen, Experimental investigation of cooling performance of a novel HVAC system combining natural ventilation with diffuse ceiling inlet and TABS, Energy and Buildings, 2015, 105: 165-177.

(13) Tao Yu*, Per Heiselberg, Bo Lei, Michal Pomianowski, Chen Zhang, A novel system solution for cooling and ventilation in office buildings: A review of applied technologies and a case study, Energy and Buildings, 2015, 90: 142-155.

(14) Tao Yu*, Per Heiselberg, Bo Lei, Michal Pomianowski, Validation and modification of modeling thermally activated building systems (TABS) using EnergyPlus, Building Simulation , 2014, 7(6): 615-627.

(15) Xiaoliang Wang, Bo Lei, Haiquan Bi, Tao Yu, A simplified method for evaluating thermal performance of unglazed transpired solar collectors under steady state, Applied Thermal Engineering, 2017, 117: 185~192.

(16) Chen Zhang, Per Heiselberg, Michal Pomianowski, Tao Yu, Rasmus Jensen, Experimental study of diffuse ceiling ventilation coupled with a thermally activated building construction in an office room, Energy and Buildings, 2015, 105: 60-70.

(17) Zhida Zhao, Nanyang Yu, Tao Yu, Haofei Zhang, Data Analysis and Modeling of Chilled Water Loops in Air Conditioning Systems, Mathematical Problems in Engineering, 2017, Article ID 9040242: 1-16.

(18) Lei He, Bo Lei, Haiquan Bi, Tao Yu, Simplified Building Thermal Model Used for Optimal Control of Radiant Cooling System, Mathematical Problems in Engineering, 2016, Article ID 2976731: 1-15.

(19) Wang Honglin, Lei Bo, Bi Haiquan, Yu, Tao,Wavefront evolution of compression waves propagating in high speed railway tunnels, 2018, 431: 105-121.

(20) 吴昊, 余涛*, 雷波. 盖板式冲缝型太阳能空气集热器热性能简化计算方法. 太阳能学报, 2020, 41(2):246-252.

(1) 国家自然科学基金青年科学基金项目(51708453)，“耦合太阳能热源的空心通风内墙蓄传热特性研究“，2018.01-2020.12，主持；

(2) 四川省科技厅重点研发项目(2019YFG0316)，”川西高原居住建筑太阳能通风内墙的传热机理与应用研究“，2019.01-2020.12，主持；

(3) 四川省人社厅留学回国人员择优资助项目，”川藏铁路站房太阳辐射作用下地板辐射供暖系统特性研究“，2020.06-2021.09，主持；

(4) 四川省自然科学基金青年科学基金项目(2022NSFSC1944)，”川西高原居住建筑太阳能热风地板的供热特性与应用研究“，2022.01-2023.12，主持；

(5) 国家自然科学基金重点项目(52038009)，“川藏铁路隧道热湿环境调控与火灾安全保障理论及方法“，2021.01-2025.12，参与；

(6) 国家重点研发计划课题(2018YFC0705005)，”高铁、港口及公路客运站节能营造技术体系及工程示范“，2018.11-2021.06，参与；

(7) 横向协作项目，”济南市轨道交通M2线一期工程地下隧道及车站通风系统模拟计算“，2017.07-2018.07，主持；

(8) 横向协作项目，”京张高铁新八达岭隧道及八达岭长城站热环境和风环境控制关键技术活塞风数值模拟和人员安全评估“，2020.11-2021.12，主持；

(9) 横向协作项目，”严寒地区地铁环控系统模式与热环境研究隧道热环境数值模拟“，2020.11-2021.12，主持；

(10) 横向协作项目，”川藏铁路专题五通风降温仿真模拟计算“，2020.09-2021.06，主持；

(11) 横向协作项目，”嘉闵线高速列车压力波对人员舒适度及隧道内设备的影响专题委外“，2021.06-2023.06，主持；

(12) 横向协作项目，”多线多层地铁换乘车站与隧道的通风与火灾研究-迂回隧道通风及火灾模拟分析“，2021.12-2022.12，主持；

(1) 建筑节能与可再生能源应用

(2) 建筑热环境及其控制

(3) 隧道通风及热环境控制

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