Guido Thömmes scite author profile

SUMMARYWe apply the lattice Boltzmann (LB) method for solving the shallow water equations with source terms such as the bed slope and bed friction. Our aim is to use a simple and accurate representation of the source terms in order to simulate practical shallow water flows without relying on upwind discretization or Riemann problem solvers. We validate the algorithm on problems where analytical solutions are available. The numerical results are in good agreement with analytical solutions. Furthermore, we test the method on a practical problem by simulating mean flow in the Strait of Gibraltar. The main focus is to examine the performance of the LB method for complex geometries with irregular bathymetry. The results demonstrate its ability to capture the main flow features.

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Efficient numerical methods for radiation in gas turbines

Seaı̈d

Frank

Klar

et al. 2004

Journal of Computational and Applied Mathematics

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Numerical Methods and Optimal Control for Glass Cooling Processes

Thömmes

Pinnau

Seaı̈d

et al. 2002

Transport Theory and Statistical Physics

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Optimal boundary control of glass cooling processes

Pinnau

Thömmes

2004

Math Methods in App Sciences

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SUMMARYIn this paper, an optimal control problem for glass cooling processes is studied. We model glass cooling using the SP 1 approximations to the radiative heat transfer equations. The control variable is the temperature at the boundary of the domain. This results in a boundary control problem for a parabolic/elliptic system which is treated by a constrained optimization approach. We consider several cost functionals of tracking-type and formally derive the ÿrst-order optimality system. Several numerical methods based on the adjoint variables are investigated. We present results of numerical simulations illustrating the feasibility and performance of the di erent approaches.

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Guido Thömmes

Simplified PN Approximations to the Equations of Radiative Heat Transfer and Applications

Lattice Boltzmann methods for shallow water flow applications

Efficient numerical methods for radiation in gas turbines

Numerical Methods and Optimal Control for Glass Cooling Processes

Optimal boundary control of glass cooling processes

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