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A unified hybrid lattice-Boltzmann method for compressible flows: Bridging between pressure-based and density-based methods

G. Farag, T. Coratger, Gauthier Wissocq, Song Zhao, Pierre Boivin, Pierre Sagaut

2021Physics of Fluids31 citationsDOIOpen Access PDF

Abstract

A unified expression for high-speed compressible segregated consistent lattice Boltzmann methods, namely, pressure-based and improved density-based methods, is given. It is theoretically proved that in the absence of forcing terms, these approaches are strictly identical and can be recast in a unique form. An important result is that the difference with classical density-based methods lies in the addition of fourth-order term in the equilibrium function. It is also shown that forcing terms used to balance numerical errors in both original pressure-based and improved density-based methods can be written in a generalized way. A hybrid segregated efficient lattice-Boltzmann for compressible flow based on this unified model, equipped with a recursive regularization kernel, is proposed and successfully assessed on a wide set of test cases with and without shock waves.

Topics & Concepts

Lattice Boltzmann methodsCompressibilityMathematicsBoltzmann constantApplied mathematicsRegularization (linguistics)Lattice (music)Statistical physicsHPP modelForcing (mathematics)Mathematical analysisMathematical optimizationComputer sciencePhysicsMechanicsThermodynamicsTurbulenceReynolds numberArtificial intelligenceAcousticsLattice Boltzmann Simulation StudiesAerosol Filtration and Electrostatic PrecipitationAerodynamics and Fluid Dynamics Research