Muhammad Febrilian Syah
Contact details
Thesis title
Time-inclined method: toward flexibility in turbomachinery computational fluid dynamics
Research overview
Research into energy-efficient aircraft propulsion, particularly gas turbine (GT) technology, is vital for aviation sustainability. Even minor efficiency gains in GT systems can yield significant fuel savings and emission reductions globally. Accurate prediction of turbulent flows in turbomachinery components is essential for enhancing GT cycle efficiency. Computational fluid dynamics (CFD) aids designers in understanding gas turbine operational phenomena. The thesis, "Time-inclined method: Toward flexibility in turbomachinery CFD," aims to develop simulation codes for predicting phenomena with varying stator-rotor pitch ratios. This effort enhances understanding of turbomachinery CFD, fostering propulsion technology advancements for sustainable power generation systems.
Research group
Computational mechanics
Supervisors
Qualifications
B.Eng. Mechanical Engineering, Bandung Institute of Technology, Indonesia (2022)
M.Sc. Mechanical Engineering, Bandung Institute of Technology, Indonesia (2023)