Sort by
Refine Your Search
-
description We are seeking a PhD student to join our research team specializing in the analysis and modeling of multiphase flows. The research focuses on developing a fundamental understanding and numerical
-
volatile cryogenic fluids like LH₂. This project will pioneer design methodologies and multiphase simulations to address this gap—focusing on cavitation behaviour and thermodynamic complexities unique
-
Research Group at the Faculty of Engineering which conducts cutting edge research into experimental and computational heat and mass transfer, multiphase flows, thermal management, refrigeration, energy
-
multiphase flow challenges related to the flow characteristics during cyclic injection processes using microfluidic experiments and pore-scale modelling. You will gain access to the advanced microfluidic
-
unique, novel high-resolution imaging systems to investigate submillimeter-scale turbulent dynamics in multiphase environments such as the ocean surface. The project is part of the Collaborative Research
-
-scale turbulent dynamics in multiphase environments such as the ocean surface. The project is part of the Collaborative Research Centre (CRC) “Energy transfers in atmosphere and ocean” funded by
-
methodology and advanced multiphase modelling techniques for regenerative pumps operating on liquid hydrogen. There will be particular emphasis on the cavitation behaviour of hydrogen which is strongly
-
processes can only be based on local physical modelling. The multiphase nature of the process, combining grain transport and heat transfer, remains a major obstacle. The particles flow in the rotating drum