个人简介:

 

国家优秀青年基金(海外)人才,“百人计划”青年研究员,博士生导师。

围绕高密度城市与建筑环境中“人-建筑室内室外-城市环境参数”之间的多尺度与多参数耦合影响机制开展研究。主要包含城市风热环境、建筑环境、污染物扩散、自然通风与飞沫扩散方面的研究,包括城区和建筑周围湍流的数值模拟和风洞实验研究、城市通风-空气污染物扩散研究、建筑自然通风研究、室内外耦合飞沫扩散研究和应用机器学习优化城市风环境研究等。
 
在风工程领域国际知名期刊发表论文近60篇。相关期刊包括《Building and Environment》(JCR1)、《Applied Energy》(JCR1)、《Sustainable Cities and Society》(JCR1)、《Journal of Wind Engineering and Industrial Aerodynamics(JCR1)、《Energy and Buildings(JCR1)与《Building Simulation》等。

 

先后负责、参与香港科技大学自主项目3项、香港基金委支持的香港四校联合项目1项和香港环境及自然保育基金1项;
主持国家海外高层次人才引进项目1项,国家自然科学基金面上项目2项,广东省区域联合基金1项和广州市应用基础研究基金1项。

 

欢迎加入FutureCity-BEUP(Built Environment and Urban Physics)团队!

团队主页:https://www.futurecity-beup.com/

博士后:欢迎城市气候相关学者加入;
博士生:欢迎即将毕业的研究生报考;

研究生:欢迎即将毕业的本科生报考;
本科生:欢迎有相关研究兴趣的大二、大三同学参与研究性学习与毕业论文研究。

请发送简历至:zhangxlin25@mail.sysu.edu.cn 

 

工作经历:

  • 教授 Professor (03/2025-今)

    工作单位:大气科学学院,中山大学 (Sun Yat-Sen University)

  • 副教授 Assoicate Professor  (03/2020-03/2025)

    工作单位:大气科学学院,中山大学 (Sun Yat-Sen University)

  • 博士后研究员 Postdoctoral Fellow  (09/2018-01/2020)

    工作单位:土木工程学系,香港科技大学 (The Hong Kong University of Science and Technology)

    合作教授:Prof. K. T. Tse

  • 博士后研究员 Postdoctoral Fellow  (09/2018-06/2019)

    工作单位:建筑物理系,埃因霍温理工大学 (Eindhoven University of Technology (TU/e)

    合作教授:Prof. B. J. E. (Bert) Blocken

  • 受邀访问学者 Visiting Scholar  (09/2017-03/2018)

    访问学校:建筑物理系,埃因霍温理工大学 (Eindhoven University of Technology (TU/e))  

    合作教授:Prof. B. J. E. (Bert) Blocken and Dr. H. (Hamid) Montazeri

 

教育背景:

  • 土木工程博士学位 Ph.D.  (09/2014-07/2018)

    毕业学校:香港科技大学 (The Hong Kong University of Science and Technology)

    指导教授:Prof. K. T. Tse and Prof. K. C. S. Kwok

  • 屋宇设备工程硕士学位 M.Sc. (09/2013 – 08/2014)

    毕业学校:香港大学 (The Univeristy of Hong Kong)

    指导教授:李玉国教授 (Prof. Yuguo Li)

 

科研项目:

1. 2025-2028,国家自然科学基金面上项目:建筑表皮光催化与冷性涂层协同应用对亚热带城市微环境与
建筑能耗的影响机制研究(主持)

2. 2022-2025,国家海外高层次人才引进项目:城市风环境(主持)

3. 2022-2025,国家自然科学基金面上项目:典型气象条件下街区与社区室内室外耦合影响的飞沫核扩散
与人际暴露研究(主持)

4. 2022-2023,高校基本科研业务费:典型公共建筑室内外耦合飞沫扩散及风险识别研究(主持)

5. 2020-2023,广东省基础与应用基础研究项目:基于代理模型和优化算法的典型架空层建筑设计优化研究(主持)

6. 2021-2023,广州市科技计划项目:典型半开放公共建筑自然通风机理研究(主持)

 

教授课程:

《计算机基础与程序设计》(必修)、《城市气象》(必修)、《应用气象理论与实验》(必修)、
《计算方法》(专选)

 

BEUP团队情况:

1. 团队成员:

在读博士生:

范潇丹;刘文冰;钱星宇;郭瑶佳

在读研究生:  

温琳;

覃驰川;吴臻;

曹子庸;翟佳茹

大二、大三研习生:

覃驰川(2019级本科生);曾旭军(2019级本科生);于洁(2019级本科生);
李思阅(2020级本科生);关天艺(2020级本科生);刘月(2020级本科生);
翟佳茹(2020级本科生);刘思怡(2020级本科生)

本科毕业生:

金虎;陶钰 ;李佶轩;叶洁妍(2017级毕业生)

覃驰川;于洁;钟羽荀(2019级毕业生)

硕士毕业生:

叶秀岚;梁捷(2023级毕业生)

陆孟荣(2022级毕业生)

2. 团队资源:

实验平台:团队建有直流式大气边界层风洞实验平台

计算资源:团队配备多台高性能工作站,有充足的计算资源

团队氛围:自由平等,坚持不懈,追求细节,勇于创新

 

其他经历:

  • 担任国际学术会议重要职务情况  

1. HKWES4 Workshop 会议组织委员会秘书  (07/2019-01/2020)
    (Hong Kong Wind Engineering Society Workshop 4)                                                               

2. PHYSMOD2019会议组织会委员会委员  (03/2019-08/2019)
    (Workshop on Physical Modeling of Environmental Flow and Dispersion Phenomena)

  • 担任国际期刊审稿人情况

《Journal of Wind Engineering and Industry Aerodynamic》                          

《Building and Environment》

《Sustainable Cities and Society》

Indoor and Built Environment

《Advances in Structural Engineering》

《Applied Energy》

《Urban Climate》

《Journal of Applied and Computational Mechanics》

  • 学术兼职情况  

 《Physics of Fluid》(JCR2 Top)副主编

  国家环境保护大气物理模拟与污染控制重点实验室学术委员会委员

 

论文情况:

  • 期刊论文 (*通讯作者;#共同第一作者)

  1. Wang, J., Kudagama, B. J., Perera, U. S., Li, S.*, & Zhang, X..* (2025). Framework for generating high-resolution Hong Kong local climate projections to support building energy simulations. Physics of Fluids37(3), 037126.
  2. Liang, J., Hang, J., Jia, S., Hua, J., Zhao, B., Zhang, X.*, Ling, H., & Mo, Z. (2025). O3–NOx–VOCs photochemical pollutant dispersion in 2D street canyon under effects of solar radiation. Atmospheric Environment, 121032. 
  3. Weerasuriya, A. U., Longo, R., Zhang, X.*, Cotteleer, L., & Parente, A. (2025). Comprehensive evaluation of constant and variable turbulent Schmidt numbers for CFD simulation of near-field air pollutant dispersion. Building and Environment, 270, 112493.
  4. Guo, Y., Zhang, X.*, Weerasuriya, A. U., Li, C. Y., & Zhang, B. (2024). Establishing Correlation between Flow Structures and Air Pollutant Dispersion around Isolated Building. Building and Environment,  112466.
  5. Zhang, B., Wen, L., Zhang, X., Fu, Y., Tim, K. T., & Mak, C. M. (2024). Enhanced modeling of vehicle-induced turbulence and pollutant dispersion in urban street canyon: Large-eddy simulation via dynamic overset mesh approach. Sustainable Cities and Society, 105939.
  6. Perera, U. S., Weerasuriya, A. U., Zhang, X.*, Ruparathna, R., Tharaka, M. G. I., & Lewangamage, C. S. (2025). Selecting suitable passive design strategies for residential high-rise buildings in tropical climates to minimize building energy demand. Building and Environment, 267, 112177. 
  7. Li, C. Y., Zhang, L., Li, S., Zhang, X.*, Chen, Z., Fu, Y., Lin, X., Peng, D. Z., Wang, Y., Zhang, B., Zhou, L., Wang, Y., Liu, H., Weerasuriya, A. U., Tse, K. T., & Yang, Q. (2024). Koopman-inspired data-driven quantification of fluid–structure energy transfers. Physics of Fluids, 36(9), 095102.
  8. Qian, X., Zhang, X.*, Weerasuriya, A. U., & Zhai, J. (2024). Designing green walls to mitigate fine particulate pollution in an idealized urban environment. Sustainable Cities and Society, 113, 105640.
  9. Chen, Z., Guan, T., Zhang, L., Li, S., Kim, B., Fu, Y., Li, C. Y., & Zhang, X. (2024). The flow interference investigation of multi-square prisms under fluid–structure interaction. I. Proximal wake characteristics of tandem square prisms. Physics of Fluids, 36(7), 075137.
  10. Zhang, X., A. U. Weerasuriya, U. S. Perera, J. Wang, C. Y. Li, K. T. Tse, & K. C. S. Kwok. (2024). Effects of internal wall design on cross-ventilation of an isolated building. Physics of Fluids, 36(5), 057130.
  11. Fan, X., Zhang, X.*, Weerasuriya, A. U., Hang, J., Zhai, J., Luo, Q., & Ou. C. (2024). Simulation-based Suggestions for Lockdown Rules in Dense Urban Areas considering Indoor-Outdoor Droplet Transmission under Natural Ventilation Conditions, Sustainable Cities and Society, 108, 105401.
  12. Zhao, Y#., Zhang, X. #, Ling, H.*, Jia, S.*, Yang, X., Zhang, Y., Zhao, B., & Hua, J. (2024). Utilizing periodic boundary conditions to save computational resources for assessing building natural ventilation in urban areas, Urban Climate, 55, 101925.
  13. Luo, Q., Hang, J., Ou, C., Luo, Z., Yang, X., Zhang, Y., Gu, Z., & Zhang, X.* (2024). Assessing impact of intermittent window opening strategies on pathogen-laden droplet dispersion in a coach bus, Building Simulation.
  14. Li, Q.#, Zhang, X.#, & Hang, J. (2024). Numerical investigations of cool coatings on building envelopes for urban heat mitigation with various street aspect ratios, Sustainable Cities and Society, 107, 105410.
  15. Zeng, L., Zhang, X., Lu, J., Li, Y., Hang, J., Hua, J., Zhao, B., & Ling, H. (2024). Influence of Various Urban Morphological Parameters on Urban Canopy Ventilation: A Parametric Numerical Study. Atmosphere, 15(3), 352.
  16. Ye, X., Zhang, X.*, Weerasuriya, A. U., Hang, J., Zeng, L., & Li, C. Y. (2024). Optimum design parameters for a venturi-shaped roof to maximize the performance of building-integrated wind turbines. Applied Energy355, 122311.
  17. Luo, Q., Liu, W., Liao, J., Gu, Z., Fan, X., Luo, Z., Zhang, X., Hang, J. & Ou, C. (2023). COVID-19 transmission and control in land public transport: A literature review. Fundamental Research.
  18. Zeng, L., Lindberg, F., Zhang, X., Pan, H., & Lu, J. (2023). Road surface temperature evaluated with streetview-derived parameters in a hot and humid megacity. Urban Climate51, 101585.
  19. Hang, J., Wang, X., Liang, J., Zhang, X., Wu, L., Du, Y., ... & Buccolieri, R. (2023). Numerical investigation of the impact of urban trees on O3–NOx–VOCs chemistry and pollutant dispersion in a typical street canyon. Atmospheric Environment, 119998.
  20. Li, C. Y., Chen, Z., Weerasuriya, A. U., Zhang, X., Lin, X., Zhou, L., Fu, Y., & Tim, K. T. (2023). Best practice guidelines for the dynamic mode decomposition from a wind engineering perspective. Journal of Wind Engineering and Industrial Aerodynamics, 241, 105506. 
  21. Zhang, X., Buddhika, J. W. G., Wang, J., Weerasuriya, A. U., & Tse, K. T. (2023). Numerical investigation of effects of trees on cross-ventilation of an isolated building. Journal of Building Engineering, 106808.
  22. Li, C. Y., Chen, Z., Tim, K. T., Weerasuriya, A. U., Zhang, X., Fu, Y., & Lin, X. (2023). The linear-time-invariance notion of the Koopman analysis. Part 2. Dynamic Koopman modes, physics interpretations and phenomenological analysis of the prism wake. Journal of Fluid Mechanics959, A15.
  23. Liang, J., Zeng, L., Zhou, S., Wang, X., Hua, J., Zhang, X., ... & He, L. (2023). Combined Effects of Photochemical Processes, Pollutant Sources and Urban Configuration on Photochemical Pollutant Concentrations. Sustainability15(4), 3281.
  24. Hang, J., Yang, X., Ou, C., Luo, Z., Fan, X., Zhang, X., ... & Li, X. (2023). Assessment of exhaled pathogenic droplet dispersion and indoor-outdoor exposure risk in urban street with naturally-ventilated buildings. Building and Environment, 110122.
  25. Li, C. Y., Chen, Z., Zhang, X., Tim, K. T., & Lin, C. (2023). Koopman analysis by the dynamic mode decomposition in wind engineering. Journal of Wind Engineering and Industrial Aerodynamics232, 105295.
  26. Hang, J., Liang, J., Wang, X., Zhang, X.*, Wu, L.,& Shao, M. (2022). Investigation of O3–NOx–VOCs chemistry and pollutant dispersion in street canyons with various aspect ratios by CFD simulations. Building and Environment.
  27. Chen, Z., Zhang, L., Li, K., Xue, X., Zhang, X., Kim, B., & Li, C. Y. (2022). Machine-learning prediction of aerodynamic damping for buildings and structures undergoing flow-induced vibrations. Journal of Building Engineering, 105374.
  28. Hang, J., Wang, D., Zeng, L., Ren, L., Shi, Y., & Zhang, X. (2022). Experimental investigation of thermal environment and surface energy balance in deep and shallow street canyons under various sky conditions. Building and Environment, 109618.
  29. Fan, X.,Zhang, X.*, Werasuriya, A. U., Hang, J., Zeng, L., Luo, Q., ... & Chen, Z. (2022). Numerical investigation of the effects of environmental conditions, droplet size, and social distancing on droplet transmission in a street canyon. Building and Environment, 109261.
  30. Luo, Q., Ou, C., Hang, J., Luo, Z., Yang, H., Yang, X., Zhang, X. & Li, Y. (2022). Role of pathogen-laden expiratory droplet dispersion and natural ventilation explaining a COVID-19 outbreak in a coach bus. Building and Environment.
  31. Zhang, X., Weerasuriya, A. U., Wang, J., Li, C. Y., Chen, Z., Tse, K. T., & Hang, J. (2022). Cross-ventilation of a generic building with various configurations of external and internal openings. Building and Environment207, 108447.
  32. Li, C. Y., Chen, Z., Lin, X., Weerasuriya, A. U., Zhang, X., Fu, Y., & Tse, T. K. (2022). The linear-time-invariance notion to the Koopman analysis: The architecture, pedagogical rendering, and fluid–structure association. Physics of Fluids34(12), 125136.
  33. Li, C. Y., Chen, Z., Tse, T. K., Weerasuriya, A. U., Zhang, X., Fu, Y., & Lin, X. (2022). A parametric and feasibility study for data sampling of the dynamic mode decomposition: Spectral insights and further explorations. Physics of Fluids34(3), 035102.
  34. Li, C. Y., Chen, Z., Tse, T. K., Weerasuriya, A. U., Zhang, X., Fu, Y., & Lin, X. (2022). A parametric and feasibility study for data sampling of the dynamic mode decomposition: range, resolution, and universal convergence states. Nonlinear Dynamics, 1-25.
  35. Li, C. Y., Chen, Z., Tse, T. K., Weerasuriya, A. U., Zhang, X., Fu, Y., & Lin, X. (2021). Establishing direct phenomenological connections between fluid and structure by the Koopman-Linearly Time-Invariant analysis. Physics of Fluids33(12), 121707.
  36. Hu, Y., Wu, Y., Wang, Q., Hang, J., Li, Q., Liang, J., ... & Zhang, X. (2021). Impact of Indoor-Outdoor Temperature Difference on Building Ventilation and Pollutant Dispersion within Urban Communities. Atmosphere13(1), 28.
  37. Weerasuriya, A. U., Zhang, X.*, Tse, K. T., Liu, C. H., & Kwok, K. C. (2021). RANS simulation of near-field dispersion of reactive air pollutants. Building and Environment, 108553.
  38. Weerasuriya, A. U., Zhang, X.*, Wang, J., Lu, B., Tse, K. T., & Liu, C. H. (2021). Performance evaluation of population-based metaheuristic algorithms and decision-making for multi-objective optimization of building design. Building and Environment198, 107855.
  39. Weerasuriya, A. U., Zhang, X.*, Lu, B., Tse, K. T., & Liu, C. H. (2021). A Gaussian Process-Based emulator for modeling pedestrian-level wind field. Building and Environment, 107500.
  40. Zhang, X., Weerasuriya, A. U., & Tse, K. T. (2020). CFD simulation of natural ventilation of a generic building in various incident wind directions: Comparison of turbulence modelling, evaluation methods, and ventilation mechanisms. Energy and Buildings229, 110516.
  41. Zhang X., Weerasuriya A. U.*, Zhang X., Tse K.T., Lu B., Li Cruz Y. & Liu C.H. (2020). Pedestrian Wind Comfort Near a Super-Tall Building with Various Configurations in an Urban-like Setting. Building Simulation. DOI: 10.1007/s12273-020-0658-6
  42. Zhang, Y., Liu, J., Zheng, Z., Fang, Z., Zhang, X., Gao, Y., & Xie, Y. (2020). Analysis of thermal comfort during movement in a semi-open transition space. Energy and Buildings225, 110312.
  43. Weerasuriya A. U., Zhang X.*, Lu B., Tse K.T. & Liu C.H. (2020). Optimizing Lift-up Design to Maximize Pedestrian Wind and Thermal Comfort in ‘Hot-Calm’ and ‘Cold-Windy’ Climates. Sustainable Cities and Society, 58, 102146. DOI: 10.1016/j.scs.2020.102146     
  44. Zhou, C., Fang, Z., Xu, X., Zhang, X., Ding, Y. & Jiang, X. (2019). Using Long Short-Term Memory Networks to Predict Energy Consumption of Air-conditioning Systems. Sustainable Cities and Society, 55, 102000.    
  45. Hang J., Chen X., Chen G., Chen T., Lin Y., Luo Z., Zhang X.* & Wang Q.* (2019). Impacts of aspect ratios and wall heating conditions on flow and passive pollutant exposure in 2D typical street canyons, Building and Environment, 168, 106536. DOI:10.1016/j.buildenv.2019.106536
  46. Zhang, X., Weerasuriya, A. U., Lu, B., Tse, K.T., Liu, C.H. & Tamura, Y. (2019). Pedestrian-level Wind Environment near a Super-Tall Building with Unconventional Configurations in a Regular Urban Area, Building Simulation, 13, 439-456. 
  47. Weerasuriya, A. U., Zhang, X.*, Gan, V. J. L.*, & Tan, Y. (2019). A holistic framework to utilize natural ventilation to optimize energy performance of residential high-rise buildings, Building and Environment, 153, 218-232.                
  48. Liu, J., Zhang, X., Niu, J., & Tse, K. T. (2019). Pedestrian-level wind and gust around buildings with a ‘lift-up’ design: Assessment of influence from surrounding buildings by adopting LES. Building Simulation, 12(6), 1107-1118.
  49. Zhang, X., Tse, K. T., Weerasuriya, A. U., Kwok, K. C. S. Niu, J., Lin, Z., & Mak, C. M. (2018). Pedestrian-level wind conditions in the space underneath lift-up buildings, Journal of Wind Engineering and Industrial Aerodynamics, 179, 58-69. 
  50. Weerasuriya, A. U., Tse, K. T., Zhang, X.*, & Kwok, K. C. S. (2018).  Equivalent Wind Incidence Angle Method: A New Technique to Integrate the Effects of Twisted Wind Flows to AVA, Building and Environment, 139, 46-57.
  51. Weerasuriya, A. U., Tse, K. T., Zhang, X.*, & Kwok, K. C. S. (2018). Integrating Twisted Wind Profiles to Air Ventilation Assessment (AVA): The Current Status, Building and Environment, 135, 297-307.  
  52. Weerasuriya, A. U., Hu, Z. Z., Zhang, X., Tse, K. T., Li, S. W., & Chan, P. W. (2018). New inflow boundary conditions for modelling twisted wind profiles in CFD simulation of the pedestrian-level wind field near isolated buildings, Building and Environment, 132, 303-318. 
  53. Weerasuriya, A. U., Tse, K. T., Zhang, X.*, & Li, S. W. (2018). A wind tunnel study of effects of twisted wind flows on the pedestrian-level wind field in an urban environment, Building and Environment, 128, 225-235.  
  54. Zhang, X., Tse, K. T., Weerasuriya, A. U., Li, S. W., Kwok, K. C. S., Mak, C. M., Niu, J., & Lin, Z. (2017). Evaluation of pedestrian wind comfort near ‘lift-up’ buildings with different aspect ratios and central core modifications. Building and Environment, 124, 245-257. 
  55. Tse, K. T., Zhang, X.*, Weerasuriya, A. U., Li, S. W., Kwok, K. C. S., Mak, C. M., & Niu, J. (2017). Adopting “lift-up” building design to improve the surrounding pedestrian-level wind environment. Building and Environment, 117, 154–165.  
  56. Tse, K. T., Weerasuriya, A. U., Zhang, X., Li, S. W., & Kwok, K. C. S. (2017). Effects of twisted wind flows on wind conditions in passages between buildings. Journal of Wind Engineering and Industrial Aerodynamics167, 87-100.
  57. Tse, K. T., Weerasuriya, A. U., Zhang, X., Li, S. W., & Kwok, K. C. S. (2017). Pedestrian-level wind environment around isolated buildings under the influence of twisted wind flows. Journal of Wind Engineering and Industrial Aerodynamics, 162, 12–23.

  • 国际会议论文及报告

  1. Fan, X., Zhang, X., & Weerasuriya, A. U. (2024). Droplet phase, droplet-air interaction, and droplet-releasing techniques for CFD simulation of droplet dispersion, 9th International Colloquium on Bluff Body Aerodynamics and Applications (BBAAIX), Birmingham, UK, 29th July – 2nd August 2024.
  2. Fan, X., Zhang, X., & Weerasuriya, A. U. (2023). Respiratory droplets transmission in urban street canyons, The 16th International Conference on Wind Engineering (ICWE16), Florence, Italy, 27th – 31st, August 2023.
  3. Zhang, X., & Weerasuriya, A. U. (2023). CFD Simulation of Specific Effects of Trees on Cross-ventilation of a Generic Building, Healthy Buildings 2023 - Asia and Pacific Rim, Tianjin, China, 17th - 19th July 2023.
  4. Zhang, X., & Weerasuriya, A. U. (2023). Investigation of specific effects of trees on cross-ventilation of a generic building, 5th Hong Kong Wind Engineering Society Workshop (HKWES5), Hong Kong, 13th - 14th July 2023.
  5. Zhang, X., Weerasuriya, A. U.& Hang J. (2022). CFD simulation of cross-ventilation in a generic building in various incident wind directions: comparison of RANS and LES, The 16th ROOMVENT Conference (ROOMVENT 2022), Xi’an, China, 16th–19th September 2022.
  6. Weerasuriya, A. U., Zhang, X., Lu B., Tse, K. T. & Liu C. H. (2020). CFD simulation of cross-ventilation in a generic building in various incident wind directions: Comparison of RANS and LES, 9th International Colloquium on Bluff Body Aerodynamics and Applications (BBAA9), Birmingham, UK, 20th – 23rd July 2020.
  7. Zhang, X., Weerasuriya, A. U. & Tse, K. T. (2020). Application of Particle Image Velocimetry (PIV) to investigate the flow field near lift-up buildings, 4th Workshop on Wind Engineering, Hong Kong Wind Engineering Society, Hong Kong, 7th - 8th January 2020.
  8. Zhang, X., Weerasuriya, A. U., Montazeri, H., Tse, K. T. & Blocken B. (2019). Experimental and numerical analysis of flow field near a lift-up building, The 15th International Conference on Wind Engineering (ICWE15), Beijing, China, 1st – 6th September 2019.
  9. Weerasuriya, A. U., Liu, C. H., Tse, K. T., Zhang, X. & Lu, B. (2019). Pedestrian-level wind environment near super-tall buildings with unconventional configurations in an urban area, The 15th International Conference on Wind Engineering (ICWE15), Beijing, China, 1st – 6th September 2019.
  10. Zhang, X., Weerasuriya, A. U. & Tse, K. T. (2019). Application of Particle Image Velocimetry (PIV) to investigate the flow field near lift-up buildings, International Workshop on Physical Modeling of Flow and Dispersion Phenomena (PHYSMOD 2019), Hong Kong, 26th - 28th August 2019.
  11. Weerasuriya, A. U., Zhang, X. & Tse, K. T. (2018). An ANN-based surrogate model for predicting pedestrian-level wind environment, 8th International Conference on Environmental effects on buildings and people: actions, influences, interactions, discomfort (EEBP8), Cracow, Poland, 3rd - 5th October 2018.
  12. Zhang, X., Weerasuriya, A. U., Tse, K. T., Kwok, K. C. S., Mak C. M. & Niu, J. L. (2017). Evaluation of pedestrian comfort level near ‘lift-up’ buildings with different heights and widths, 7th European-African Conference on Wind Engineering (EACWE2017), Liège, Belgium, 4th-7th July 2017.
  13. Weerasuriya, A. U., Zhang, X., Tse, K. T. & Kwok, K. C. S. (2016). Employing correction methods in incorporating the influence of twisted wind profiles on Air Ventilation Assessment (AVA), 3rd Workshop on Wind Engineering, Hong Kong Wind Engineering Society, Hong Kong, 15th-16th December 2016.
  14. Zhang, X., Tse, K. T., Kwok, K. C. S. & Weerasuriya, A. U. (2016). Characteristics of Pedestrian Level Wind Environment in Twisted Wind Flows around a Row of Buildings. Indoor Air 2016 The 14th International Conference of Indoor Air Quality and Climate (IA 2016), Ghent, Belgium, 3rd - 8th July 2016.
  15. Zhang, X., Weerasuriya, A. U., Tse, K. T., & Kwok, K. C. S. (2015). Pedestrian Level Wind Environment around Isolated Buildings Resulted from Twisted Wind Profiles. 17th Australasian Wind Engineering Society Workshop, Wellington, New Zealand, 12th -13th February 2015.
  16. Weerasuriya, A. U., Zhang, X., Tse, K. T., & Kwok, K. C. S. (2015). Modelling of Twisted Wind Flow to Evaluate Pedestrian Level Wind Environment around Isolated Buildings. International Workshop on Physical Modeling of Flow and Dispersion Phenomena (PHYSMOD 2015), Empa Dübendorf and ETH, Zurich, Switzerland, 7th -9th September 2015.
  17. Zhang, X., Weerasuriya, A. U., Tse, K. T., & Kwok, K. C. S. (2015). Characteristics of Pedestrian Level Wind Environment in Twisted Wind Flow around Isolated Buildings. 2015 World Congress on Advances in Structural Engineering and Mechanics (ASEM 2015), Incheon, Korea, 25th - 28th August 2015.
  18. Zhang, X., Tse, K. T., & Weerasuriya, A. U. (2014). The Effect of Twisted Wind Profile on Pedestrian Level Wind Environment around an Isolated Building. 27th KKHTCNN Symposium on Civil Engineering, Shanghai, China, 9th -12th November 20.

(更新时间:2025年3月)