R. Vilsmeier

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This work deals with the numerical simulation on an unstructured mesh of the ignition and burning of an isolated fuel droplet modelled as a porous cylindrical wall. The reaction is assumed to be described by the equation A + B −→ P. The complexity of the physical model considered, including multi-scale feature and the presence of sti propagating fronts,(More)
A numerical method is developed for tracking discontinuities which is integrated in a generalized finitevolume solution framework for systems of conservation laws on unstructured grids of arbitrary element type. The location, geometry and the movement of the discontinuities are described by a local level set method on a restricted, dynamic definition range.(More)
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