Numerical simulation of the interactions between a ferrofluid and an immersed permanent magnet
Projektleiter:
Projektbearbeiter:
Stephan Schütze
Finanzierung:
This project is devoted to the numerical modelling of interactions between a ferrofluid with a free surface and a permanent magnet immersed in this ferrofluid.
It is a highly nonlinear problem involving the numerical simulation of magnetic fields, incompressible fluid flow and rigid body motion. All these components influence each other and both the position of the rigid bodies and the form of the domain occupied by the ferrofluid are generally not known in advance.
The goal is to develop robust, accurate and efficient solvers for problems of the mentioned type. This will include research on linearization strategies, time stepping techniques, discretization concepts and efficent solvers for the arising large sparse systems of linear equations. In addition, appropriate tools for handling the moving boundaries have to be developed.
It is a highly nonlinear problem involving the numerical simulation of magnetic fields, incompressible fluid flow and rigid body motion. All these components influence each other and both the position of the rigid bodies and the form of the domain occupied by the ferrofluid are generally not known in advance.
The goal is to develop robust, accurate and efficient solvers for problems of the mentioned type. This will include research on linearization strategies, time stepping techniques, discretization concepts and efficent solvers for the arising large sparse systems of linear equations. In addition, appropriate tools for handling the moving boundaries have to be developed.
Schlagworte
Incompressible Navier-Stokes equations, magnetic fluids, moving boundary problems
Kontakt
Prof. i. R. Lutz Tobiska
Otto-von-Guericke-Universität Magdeburg
Institut für Analysis und Numerik
Universitätsplatz 2
39106
Magdeburg
Tel.:+49 391 6718650
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