Research Fellow (Urban climate modelling) 1

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We are looking for a full time Post-doctoral researcher to work on Computational Fluid Dynamics (CFD) simulation in the urban wind and thermal environment project. Position is commencing in June 2025. This posting will remain open until a suitable candidate has been found.

PROJECT
This project, jointly supported by the Urban Redevelopment Authority (URA) and National Parks Board (NParks), aims to advance our understanding of the urban wind and thermal environment within Singapore’s dense cityscape. By deploying high-resolution Doppler LiDAR systems and IoT-based weather stations, the study captures detailed vertical and horizontal wind profiles, temperature, and humidity data within the urban canopy layer.
Focusing on selected urban districts such as Jurong and CBD, the project integrates comprehensive datasets—including building morphology from URA and greenery inventories from NParks—to support neighbourhood-scale simulations using the Open Foam and urbanMicroclimateFoam CFD models. These simulations evaluate how urban form, vegetation, and ventilation corridors influence microclimate dynamics and thermal stress under various weather scenarios.

The outcomes will directly inform urban planning and design guidelines by identifying effective cooling strategies, enhancing wind permeability, and supporting data-driven decisions for resilient, climate-adaptive urban development in Singapore.

Key Responsibilities

• Conduct multi-scale multi-physics CFD modelling, e.g. simulation of thermal environment, urban greenery, airflow movement and air pollutant transmission, at district and neighbourhood scales;
• Coordinate, prepare and present project updates to the project PI and funding agency on a regular basis;
• Publish the research findings on top-tier academic journals and local/international conferences;
• Assist with project management tasks
• Prepare research proposals;
• Monitor and keep up to date the latest technology and trend in related areas;
• Organize, and assist technical workshops, networking events and conferences (local and overseas).

• Candidate must have a relevant Ph.D. degree in Mechanical Engineering, Fluid Dynamics, Atmospheric Sciences, Urban Climate, Architecture Engineering, Building Science, or related fields majoring in Computational Fluids Dynamics (CFD);
• Well informed and knowledgeable in CFD modelling;
• Highly experienced in using environmental simulation tools, such as ANSYS FLUENT, OpenFOAM or other similar programs;
• Highly motivated individual with capacity to work independently.
• Good time management and planning;
• Good publication track record;
• Some knowledge of Building Energy Modelling, GIS and programming language (Python, R, C, Java) is an advantage.