Numerical simulations of compressible flows around moving solids are a crucial target in many engineering applications, e.g. the aerodynamic flutter, rocket engines and landing devices. Because of the availability of a large variety of high-resolution schemes developed for Cartesian structured meshes in a finite-difference framework, the Immersed Boundary Method (IBM) appears to be one of the most efficient and reliable strategies to deal with the problem.
An Immersed Boundary Method for Moving Objects in Compressible Flows
De Vanna F.;Picano F.;Benini E.
2020
Abstract
Numerical simulations of compressible flows around moving solids are a crucial target in many engineering applications, e.g. the aerodynamic flutter, rocket engines and landing devices. Because of the availability of a large variety of high-resolution schemes developed for Cartesian structured meshes in a finite-difference framework, the Immersed Boundary Method (IBM) appears to be one of the most efficient and reliable strategies to deal with the problem.
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