About this role
[What the role is] Join our innovative R&D team within the Building & Research Institute to pioneer sustainable design solutions that enhance quality of life in urban environments. This role focuses on developing and implementing cutting-edge passive design strategies, directly contributing to Singapore's vision of sustainable public housing and liveable cities. [What you will be working on] Key Responsibilities Environmental Modelling & Analysis You will conduct comprehensive macro and micro-scale environmental assessments for the built environment using computational fluid dynamics (CFD) simulation and advanced modelling software. Your work will inform design decisions that optimise natural ventilation, thermal comfort, energy efficiency and reduces undesirable environmental factors such as wind-driven rain in urban developments. You will analyse microclimate conditions to create evidence-based design recommendations and targets.
Sustainable Design and Technological Innovation Collaborate with multidisciplinary teams including architects, urban planners, external consultants and IHLs to conduct R&D studies and carry out actual testbeds to develop and validate the effectiveness of sustainable solutions. You will help translate research concepts into practical applications that can be implemented in real-world settings.
Technology Validation and Deployment Strategy Design and execute testbed projects that demonstrate the performance of innovative sustainable design strategies and technologies. Through rigorous testing and data collection, you will evaluate the results and present findings to support scaling of successful solutions across public housing developments.
[What we are looking for] Essential Requirements
• Relevant educational background in Mechanical Engineering, Environmental Engineering, Architecture, or related field with strong foundation in engineering principles • Advanced knowledge of Computational Fluid Dynamics simulation methodologies and requirements • Proficiency in environmental modelling software (such as ANSYS Fluent, OpenFOAM, or similar CFD platforms) • Understanding of building physics, thermodynamics, and fluid mechanics principles • Knowledge and experience in application of passive design strategies in tropical climates
The successful candidate will be offered a 1+1 year contract. Subject to the department's needs and the individual's performance, there may be opportunities for contract renewal or conversion to a permanent position.