-
development, validation, and optimization of 3D-printed propellers. This includes conducting hydrodynamic analysis, finite element modeling, as well as overseeing site-based test bedding, data collection, and
-
in the development, validation, and optimization of 3D-printed modular floating structures. This includes conducting hydrodynamic analysis, finite element modeling, and stability assessments, as
-
behavior of floating breakwaters under varied sea conditions. 2. CFD and Finite Element Modeling • Perform Computational Fluid Dynamics (CFD) simulations to optimize the design and performance of floating
-
of Singapore’s maritime sector. The project focuses on developing planning methods to support the electrification of harbour craft fleets, using real-world operational data to derive charging demand profiles and
-
missions will be implemented, while also increasing the number of elements in the formation when considering scenarios such as reconfigurations and position switching in low-Earth elliptical reference orbits
-
yeast and fungi for food ingredient and biochemical production. The specific goals are: 1. Metabolic engineering of Yarrowia and Candida yeasts for organic acid production 2. Design and optimization
-
on analytical or empirical methods, i.e., stability calculation, resistance and propulsion estimation, weight estimation, etc. ii. Develop a practical parametric model framework for ship and system design. iii
-
perform ingredient techno-functional property tests with the support of the team members. ii. Lead the designing of food processing flow with optimized life cycle assessments (LCA) and Techno-Economic
-
pharmaceutical drug products. The created methods will be transferred to the industrial partner to enhance their product development process using rheological characterization. More specific responsibilities
-
on analytical or empirical methods, i.e., stability calculation, resistance and propulsion estimation, weight estimation, etc. ii. Develop a practical parametric model framework for ship and system design. iii