姓 名：徐任泽

性 别：男

出生年月：1994.4

职 称：讲师

学 历：博士

学 位：博士

邮 箱：Renze_xu@163.com

一、教育背景

2013.07～2017.06，长沙理工大学，交通运输工程，学士

2017.09～2020.06，中南大学，交通运输工程，硕士

2020.09～2024.06，中南大学，交通运输工程，博士

二、工作经历

2024.08～至今 长沙学院，讲师

三、主要成果综述

徐任泽，男，长沙学院土木工程学院讲师，工学博士，长期从事室内/外风场模拟与流场重构，建筑结构抗风特性以及复杂环境下污染物扩散等方面的研究，以第一作者/通讯作者发表SCI期刊论文20篇（其中JCR一区14篇），EI期刊论文4篇（均为中国科技期刊卓越行动计划中文领军期刊），CSCD期刊论文1篇，授权国家发明专利3项，并担任国际期刊《Physics of Fluids》、《Journal of Fluids and Structures》、《Journal of Wind Engineering and Industrial Aerodynamics》、《Journal of Building Engineering》、《Building and Environment》、《Sustainable Cities and Society》等审稿人。主持湖南省博士研究生科研创新项目1项。

四、主要研究方向

室内/外风场模拟与流场重构，建筑结构抗风特性以及复杂环境下污染物扩散等方面。

五、科研项目

1. 高海拔深切峡谷桥址强风的多物理场作用机制及长时预测研究, 国家自然科学基金面上项目, 2026.01-2029.12, 参与.

2. 高速列车客室呼吸道飞沫传播机理及抑控方法研究, 国家自然科学基金面上项目, 2021.01-2024.12, 参与.

3. 周期扰动下低雷诺数管道流的混沌混合机理研究, 国家自然科学基金青年项目, 2018.01-2020.12, 参与.

4. 轨道交通列车环境友好要素分析及内部流场优化, 国家重点研发计划子任务项目, 2017.07-2020.12, 参与.

六、 近年代表性论文 (第一或通讯作者论文)

1. Xu R Z, Wu F, Shen L, Pan X W, Nie C J, Huang Y H, Zhou S X. Improving hybrid ventilation via HVAC system control for indoor air quality, thermal comfort and energy performance in a high-speed train cabin[J]. Applied Thermal Engineering, 2026, 297: 130799.

2. Xu R Z, Wu F, PAN X W, Shen L, Huang Z, Yu J C, Huang Y H. A novel prediction framework for long-term aerosol dynamics and infection risk assessment in high-speed train cabins[J]. Building and Environment, 2026, 288: 114010.

3. 徐任泽, 伍钒, 沈炼, 潘小旺, 黄胄, 陈涛. 通风量和送风温度对高速列车客室微环境影响研究[J].中南大学学报(自然科学版), 2026.

4. Xu R Z, Wu F, Shen L, Pan X W, Huang Z, Yu J C, Huang Y H. Investigation of airborne transmission and thermal comfort in a train cabin: Effects of air change rate and supply mode[J]. Case Studies in Thermal Engineering, 2025, 76: 107387.

5. Xu R Z, Wu F, Shen L, Pan X W, Yu J C, Huang Y H, Personalized air exhaust combined with mixing ventilation for environmental management and airborne droplets in a train cabin[J]. Physics of Fluids, 2025, 37: 033366.

6. Wu F, Huang Y H, Xu R Z*, Yu C, Lin X L, Pan X W, Lu J, The characteristics of passenger heat loss and thermal environment in a subway cabin[J]. Physics of Fluids, 2025, 37: 035141.

7. 于德壮, 伍钒, 徐任泽*, 余简慈, 李恒奎, 潘小旺, 地铁客室多源颗粒污染物净化策略试验研究[J]. 铁道工程与科学学报, 2025, 22(9): 4182-4191.

8. Wu F, Yu C, Yu J C, Zhou S X, Fan Z Q, Xu R Z*, Experimental study on particle deposition behavior in air supply ducts of a high-speed train[J]. Building and Environment, 2025, 269: 112494.

9. Wu F, Yu C, Xu R Z*, Li H K, Yu J C, Zhou S X. Risk evaluation of respiratory droplet dispersion in high-speed train compartments with different air circulation systems[J]. Atmospheric Pollution Research, 2024, 15: 102197.

10. 伍钒, 胡长林, 徐任泽*, 崔清民, 李恒奎. 高速列车客室飞沫传播规律及通风控制策略[J]. 铁道工程与科学学报, 2024, 21(12): 4872-4884.

11. Wu F, Dong H, Yu C, Li H K, Cui Q M, Xu R Z*. Numerical simulation of formaldehyde distribution characteristics in the high-speed train cabin[J]. Building Simulation, 2024, 17: 285-300.

12. 伍钒, 汤柠铭, 于德壮, 韩胜, 鲁红兵, 徐任泽*. 内燃机车车顶高温浮射流扩散规律的数值研究[J]. 空气动力学学报, 2024, 42(7): 58−67.

13. Wu F, Fan Z Q, Dong H, Ma S, Xu R Z*, Li H K. A numerical investigation on the effects of passenger movement on droplet dispersion in a high-speed train compartment[J]. Physics of Fluids, 2024, 36: 083332.

14. Li X L, Yang M Z, Bi L, Xu R Z*, Luo C Y, Yuan S Q, Yuan X X, Tang Z G. An efficient Cartesian mesh generation strategy for complex geometries[J]. Computer Methods in Applied Mechanics and Engineering, 2024, 418: 116564.

15. 徐任泽, 伍钒, 刘欢, 钱博森. 高速列车客室内呼吸道飞沫传输规律的数值模拟研究[J]. 中南大学学报(自然科学版), 2023, 54(5): 2049-2059.

16. Xu R Z, Wu F, Li X L, Yu C, Li H K, Wu R C, Wu Y L. Numerical comparison of ventilation modes on the transmission of coughing droplets in a train compartment[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2022, 231: 105240.

17. Xu R Z, Qian B S, Wu F, Li X L, Zhang G L, Wang L H. Dispersion of evaporating droplets in the passenger compartment of high-speed train[J]. Journal of Building Engineering, 2022, 48: 104001.

18. Xu R Z, Wu F, Zhong M, Li X L, Ding J F. Numerical investigation on the aerodynamics and dynamics of a high-speed train passing through a tornado-like vortex[J]. Journal of Fluids and Structures, 2020, 96: 103042.

19. Xu R Z, Wu F, Su W H, Ding J F, Vainchtein D. A numerical approach for simulating a high-speed train passing through a tornado-like vortex[J]. Journal of Applied Fluid Mechanics, 2020, 13(5): 1635-1648.