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Grid refinement in the three-dimensional hybrid recursive regularized lattice Boltzmann method for compressible aerodynamics

Yongliang Feng, Shaolong Guo, Jérôme Jacob, Pierre Sagaut

2020Physical review. E30 citationsDOIOpen Access PDF

Abstract

Grid refinement techniques are of paramount importance for computational fluid dynamics approaches relying on the use of Cartesian grids. This is especially true of solvers dedicated to aerodynamics, in which the capture of thin shear layers require the use of small cells. In this paper, a three-dimensional grid refinement technique is developed within the framework of hybrid recursive regularized lattice Boltzmann method (HRR-LBM) for compressible high-speed flows, which is an efficient collide-stream-type method on a compact D3Q19 stencil. The proposed method is successfully assessed considering several test cases, namely, an isentropic vortex propagating through transition interface, shock-vortex interaction with intersection between grid refinement interface and shock corrugation, and transonic flows over three-dimensional DLR-M6 wing with seven levels of grid refinement.

Topics & Concepts

AerodynamicsTransonicLattice Boltzmann methodsGridComputational scienceComputer scienceAirfoilStencilMesh generationVortexComputational fluid dynamicsRegular gridCompressible flowPolygon meshCompressibilityApplied mathematicsAlgorithmMechanicsGeometryMathematicsPhysicsFinite element methodComputer graphics (images)ThermodynamicsLattice Boltzmann Simulation StudiesFluid Dynamics and Turbulent FlowsAerodynamics and Fluid Dynamics Research
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