Sort by
Refine Your Search
-
development work. We invite highly qualified candidates in the following expertise areas to join our dynamic team of faculty. Renewable Energy / Hydrogen Candidate Profile: Possess relevant Bachelor and PhD
-
opportunity to contribute to cutting-edge research in sustainable energy technologies and advance our understanding of ammonia combustion for gas turbine applications. The contract will be one-year and can be
-
, Clean/Renewable Energy, Building or IT related), sustainable buildings design or architecture. Experience in sustainable design/analysis for the built environment, Green Mark or LEED projects, M&E
-
trends of energy imports (both existing and potential) and clean and renewable energy projects Understand existing routes of energy imports into Singapore for benchmarking purpose in the study Responsible
-
research in sustainable energy technologies and advance our understanding of ammonia combustion for gas turbine applications. The contract will be one-year first and can be renewable up to 3 years depending
-
translational/applied research. Be a highly motivated, a good communicator (written and verbal), and passionate about research related to renewable energy. Preferably with minimum 2-5 years of experience
-
including but not limited to: The ASEAN Power grid, and broader electricity grid integration considerations; Renewable energy deployment policies and potential, with an emphasis on solar and power storage
-
Job Description This industry funded project aims to develop safe Li-ion battery technology for high power applications. Project will make use of high-power Li-ion cell technologies using phosphate
-
considered. Job Requirements • Possess a recognised PhD degree in hydrodynamics, marine renewable energy, or a related discipline. • Experience with CFD simulations and hydrodynamic analysis
-
energy while providing targeted levels of performance on demand. Such techniques will be investigated for digital sub-systems in advanced technologies. • Be responsible to conduct research