Mehmet Ersoy scite author profile

Mehmet Ersoy

3Publications

118Citation Statements Received

159Citation Statements Given

How they've been cited

115

How they cite others

158

Affiliations

Université de Toulon, Basque Center for Applied Mathematics, Université Savoie Mont Blanc

Publications

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Adaptive multiscale scheme based on numerical density of entropy production for conservation laws

Ersoy¹,

Golay²,

Yushchenko³

2013

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We propose a 1D adaptive numerical scheme for hyperbolic conservation laws based on the numerical density of entropy production (the amount of violation of the theoretical entropy inequality). This density is used as an a posteriori error which provides information if the mesh should be refined in the regions where discontinuities occur or coarsened in the regions where the solution remains smooth. As due to the Courant-Friedrich-Levy stability condition the time step is restricted and leads to time consuming simulations, we propose a local time stepping algorithm. We also use high order time extensions applying the Adams-Bashforth time integration technique as well as the second order linear reconstruction in space. We numerically investigate the efficiency of the scheme through several test cases: Sod's shock tube problem, Lax's shock tube problem and the Shu-Osher test problem. MSC:

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A mathematical model for unsteady mixed flows in closed water pipes

2012

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We present the formal derivation of a new unidirectional model for unsteady mixed flows in non uniform closed water pipe. In the case of free surface incompressible flows, the \FS-model is formally obtained, using formal asymptotic analysis, which is an extension to more classical shallow water models. In the same way, when the pipe is full, we propose the \Pres-model, which describes the evolution of a compressible inviscid flow, close to gas dynamics equations in a nozzle. In order to cope the transition between a free surface state and a pressured (i.e. compressible) state, we propose a mixed model, the \PFS-model, taking into account changes of section and slope variation

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Compressible primitive equations: formal derivation and stability of weak solutions

Ersoy

Ngom

2010

Nonlinearity

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We present a formal derivation of a simplified version of Compressible Primitive Equations (CPEs) for atmosphere modeling. They are obtained from 3-D compressible Navier-Stokes equations with an anisotropic viscous stress tensor where viscosity depends on the density. We then study the stability of the weak solutions of this model by using an intermediate model, called model problem, which is more simple and practical, to achieve the main result.

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Mehmet Ersoy

Adaptive multiscale scheme based on numerical density of entropy production for conservation laws

A mathematical model for unsteady mixed flows in closed water pipes

Compressible primitive equations: formal derivation and stability of weak solutions

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