梅硕俊,副教授,硕士生导师

邮箱:meishj@mail.sysu.edu.cn

办公地址:中山大学珠海校区海琴二号A207

研究方向

1. 城市极端高温成因及缓解策略

2. 城市湍流大涡模拟

3. 城市辐射传输模型 (GUST)

4.城市气候-能源耦合机制

 

欢迎对城市湍流,GPU计算,城市能源等领域感兴趣进行本科研究性学习、毕业设计和研究生深造的同学加入!

 

在研项目

1. 2023年博士后海外引才专项,20241-202612月,主持

2. 国家自然科学基金—青年项目,静小风对城市通风及高温时空特征的影响机理研究,20241-202612月,主持

3.  国家自然科学基金—国际(地区)合作与交流项目,亚洲亚热带城市的极端高温模拟,20251-202612月,主持

4. 广东省自然科学基金—面上项目,静小风条件下城市尺度高温模型研究中,20241-202612月,主持

5.  国家自然科学基金—联合基金项目,中国多气候区典型城乡多尺度风热环境与建筑能耗耦合影响机理研究,2025-2028,参与

教育背景

2010.9 – 2014.6    武汉大学,能源动力系统及自动化,学士

2014.9 – 2019.6    武汉大学,热能工程,博士

工作经历

2019.8 – 2022.8    新加坡国立大学,博士后

2021.9 – 2022.8    苏黎世联邦理工新加坡中心,博士后

2022.10 – 至今     中山大学大气科学学院,副教授

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Dr. Shuojun Mei, Associate Professor

His research focuses on urban climate resilience. His research topics cover urban wind environment, traffic-related air pollution, anthropogenic heat, passive cooling technologies, and multi-physics and multi-scale urban climate modelling. His goal is to support practical planning and design for low-carbon and resilient cities. He received his Bachelor’s (2014) and Ph.D. (2019) degrees in Engineering from Wuhan University, China. 

Address: Room A207, Haiqin Building No.2, School of Atmospheric Sciences, Sun Yat-Sen University (Zhuhai Campus), Zhuhai 519082, Guangdong, China

E-mail: meishj@mail.sysu.edu.cn

Education

2010.9 – 2014.6    Bachelor in Energy Dynamic System and Its Automation, School of Power and Mechanical Engineering, Wuhan University, China.

2014.9 – 2019.6    PhD in Thermal Power Engineering, School of Power and Mechanical Engineering, Wuhan University, China.

Experience

2019.8 – 2022.8    Postdoctoral Research Fellow, Department of Architecture, College of Design and Engineering (CDE), National University of Singapore (NUS), Singapore.

2021.9 – 2022.8    Postdoctoral Research Fellow, Future Resilient Systems, Singapore-ETH Centre, Singapore.

2022.10 –              Associate Professor, School of Atmospheric Sciences, Sun Yat-sen University, China.

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学术论文 (Publications)

2025年

  • Mei S-J, Hang J, Fan Y, Yuan C, Xue Y. CFD simulations on the wind and thermal environment in urban areas with complex terrain under calm conditions. Sustainable Cities and Society. 2025;118:106022.

2024年

  • Mei, SJ., Luo, Z., Hang, J. (2024). Urban Design to Reduce Air Pollution Exposure in High-rise and High-density Cities. Resilient Urban Environments.  Springer, Cham. https://doi.org/10.1007/978-3-031-55482-7_7. (专著章节)
  • Mei S-J, Hu J-T. Effect of porous layer and initial salt gradient on improving SGSP stability: Transient numerical simulation and theoretical analysis. International Communications in Heat and Mass Transfer. 2024;151:107240. (SCI)
  • Mei S-J, Hu J-T. Application of porous layer in enhancing stability of salt-gradient solar pond. Journal of Energy Storage. 2024;78:109965. (SCI)
  • Xue Y, Zhao Y, Mei S-J, Yuan C, Carmeliet J. The significant impacts of urban canyon configuration on non-isothermal flow, ventilation, and heat removal: Insights from PIV-LIF measurements. International Journal of Heat and Fluid Flow. 2024;110:109594. (SCI)
  • Xue Y, Zhao Y, Mei S-J, Chao Y, Carmeliet J. Exploring thermal buoyant flow in urban street canyons: Influence of approaching turbulent boundary layer. Experimental Thermal and Fluid Science. 2024;158:111255. (SCI)
  • Xue Y, Zhao Y, Mei S-J, Chao Y, Carmeliet J. Impact of street canyon morphology on heat and fluid flow: An experimental water tunnel study using simultaneous PIV-LIF technique. Experimental Thermal and Fluid Science. 2024;150:111066. (SCI)
  • Zhang W, Mei S, Zeng L. The relative importance of anthropogenic heat and wall heat flux on the street canyons warming: A multi-physics numerical simulation. Urban Climate. 2024;58:102193. (SCI)

2023及之前

  • Shuo-Jun Mei, Yongling Zhao, Tanya Talwar, Jan Carmeliet, Chao Yuan. Neighborhood scale traffic pollutant dispersion subject to different wind-buoyancy ratios: A LES case study in Singapore. Building and Environment, 2022, 228: 109831.
  • Shuo-Jun Mei, and Chao Yuan. Urban Buoyancy-Driven Air Flow and Modelling Method: A Critical Review. Building and Environment, 2022, 210, 108708. 
  • Shuo-Jun Mei, and Chao Yuan. Three-dimensional simulation of building thermal plumes merging in calm conditions: Turbulence model evaluation and turbulence structure analysis. Building and Environment, 203 (2021): 108097.
  • Shuo-Jun Mei, Chao Yuan. Analytical and Numerical Study on Transient Urban Street Air Warming Induced by Anthropogenic Heat Emission, Energy and Buildings, 2020, 110613. 
  • Shuo-Jun Mei, Zhiwen Luo, Fu-Yun Zhao, Han-Qing Wang. Street canyon ventilation and airborne pollutant dispersion: 2-D versus 3-D CFD simulations. Sustainable Cities and Society, 2019, 50, 101700. 
  • Shuo-Jun Mei, Jiang-Tao Hu, Di Liu, Fu-Yun Zhao, Yuguo Li, Han-Qing Wang, Airborne pollutant dilution inside the deep street canyons subjecting to thermal buoyancy driven flows: Effects of representative urban skylines, Buildings and Environment, 2019, 149: 592-606. 
  • Shuo-Jun Mei, Jiang-Tao Hu, Di Liu, Fu-Yun Zhao, Yuguo Li, Han-Qing Wang, Thermal buoyancy driven canyon airflows inside the compact urban blocks saturated with very weak synoptic wind: Plume merging mechanism, Building and Environment, 2018, 131, 32-43. 
  • Shuo-Jun Mei, Jiang-Tao Hu, Di Liu, Fu-Yun Zhao, Yuguo Li, Han-Qing Wang, Thermal buoyancy driven flows inside the industrial buildings primarily ventilated by the mechanical fans: Local facilitation and infiltration. Energy and Buildings, 2018, 175: 87-101. 
  • Shuo-Jun Mei, Jiang-Tao Hu, Di Liu, Fu-Yun Zhao, Yuguo Li, Yang Wang, Han-Qing Wang, Wind driven natural ventilation in the idealized building block arrays with multiple urban morphologies and unique package building density, Energy and Buildings, 2017, 155, 324-338. 
  • Shuo-Jun Mei, Cheng-Wei Liu, Di Liu, Fu-Yun Zhao, Han-Qing Wang, Xiao-Hong Li, Fluid mechanical dispersion of airborne pollutants inside urban street canyons subjecting to multi-component ventilation and unstable thermal stratifications, Science of The Total Environment, 2016, 565, 1102-1115. 
  • Jiang-Tao Hu, Shuo-Jun Mei*. Thermosolutal Convection under Cross-Diffusion Effect in SGSP with Porous Layer. International Journal of Mechanical Sciences, 2022, 107691. 
  • Jiang-Tao Hu, Shuo-Jun Mei*. Combined thermal and moisture convection and entropy generation in an inclined rectangular enclosure partially saturated with porous wall: nonlinear effects with Soret and Dufour numbers. International Journal of Mechanical Sciences, 2021, 106412. 
  • Jiang-Tao Hu, Shuo-Jun Mei*. Unsteady double diffusive convection inside a partial porous building enclosure subjected to time-periodic temperature boundary condition. International Communications in Heat and Mass Transfer, 2021, 122, 105128.
  • Jiang-Tao Hu, Shuo-Jun Mei, Di Liu, Fu-Yun Zhao, Han-Qing Wang. Hydromagnetic double diffusive moisture convection from an inclined enclosure inserted with multiple heat-generating electronic modules. International Journal of Thermal Sciences, 2021, 159, 106554.
  • Yuan Chao, Ayu Sukma Adelia, Shuojun Mei, Wenhui He, Xian-Xiang Li, Leslie Norford. Mitigating intensity of urban heat island by better understanding on urban morphology and anthropogenic heat dispersion. Building and Environment, 2020, 106876. 
  • Yuan, Chao, Ruixuan Zhu, Shanshan Tong, Shuojun Mei, and Wei Zhu. Impact of Anthropogenic Heat from Air-Conditioning on Air Temperature of Naturally Ventilated Apartments at High-Density Tropical Cities. Energy and Buildings, 2022, 112171. 
  • Lei Xu, Shanshan Tong, Wenhui He, Wei Zhu, Shuojun Mei, Kai Cao, Chao Yuan. Better Understanding on Impact of Microclimate Information on Building Energy Modelling Performance for Urban Resilience, Sustainable Cities and Society, 2022, 103775. 
  • Yang Cai, Shuo-Jun Mei, Di Liu, Fu-Yun Zhao, Han-Qin Wang. Thermoelectric heat recovery units applied in the energy harvest-built ventilation: Parametric investigation and performance optimization. Energy Conversion and Management, 2018, 171, 1163-1176. 
  • Jiang-Tao Hu, Shuo-Jun Mei, Di Liu, Fu-Yun Zhao, Han-Qing Wang, Buoyancy driven double diffusive moisture convection inside the fluid-porous-solid sandwiched building enclosure containing internal heating sources, International Journal of Heat and Mass Transfer, 2018, 123, 600-615. 
  • Jiang-Tao Hu, Shuo-Jun Mei, Di Liu, Fu-Yun Zhao, Han-Qing Wang, Buoyancy driven heat and species transports inside an energy storage enclosure partially saturated with thermal generating porous layers, International Journal of Thermal Sciences, 2018, 126, 38-55. 
  • Wei Zhu, Liqing Zhang, Shuo-Jun Mei, Chao Yuan. Developing Urban Heat Mitigation Strategies for a Historic Area Using a High-Fidelity Parametric Numerical Simulation: A Case Study in Singapore. Buildings 2022, 12(9), 1311. 
  • Cheng-Wei Liu, Shuo-Jun Mei, Di Liu, Fu-Yun Zhao, Convective dispersion of heat and airborne pollutants inside street canyons under the influence of urban ground heat flows, Indoor and Built Environment, 2017, 1420326X1770618.