Sort by
Refine Your Search
-
capture. About the research project The project will apply MRI to elucidate on the swelling of superabsorbent polymer in complex fluids with different physiochemical properties and under pressure. The aim
-
reactors, combining the advanced multiphase fluid dynamics, cavitating flow control, and reactor engineering. The successful candidate will: Design and optimize hydrodynamic cavitation reactor geometries
-
UnitedKingdomTime) Position Description: Apply Position Description The project involves mathematical modelling of complex fluid dynamics, in particular viscoelastic flows in nano-structures. The work involves
-
heat transfer, fluid mechanics, reactive flows, as well as solid mechanics plays a central role. In particular, improved understanding of turbulent, reactive, and multiphase flows together with material
-
of Fluid Mechanics, Department of Mechanics and Maritime Sciences. You will be leading research activities in a large EU project and will have the oportunity to collaborate with large institutes and aviation
-
, conversion, and utilization in different electro- and thermo-mechanical systems where the study of heat transfer, fluid mechanics, reactive flows, as well as solid mechanics plays a central role. In particular
-
lubricants that can replace today’s oil-based lubricants. In our case, the focus is on water-soluble base fluids such as glycerol. Our previous work has demonstrated exciting potential, achieving significantly
-
timescales. Within this project we will develop new reconstructions of variations in Earth’s magnetic field and the fluid flow at the top of the core over the past few millennia based on palaeomagnetic data
-
transporter protein of thyroxine and retinol-binding protein (RBP) in the serum and cerebrospinal fluid. However the folded protein is prone to instability and the formation of amyloid fibrils in tissues