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Extended Lattice Boltzmann Model

Mohammad Hossein Saadat, Benedikt Dorschner, Ilya Karlin

2021Entropy16 citationsDOIOpen Access PDF

Abstract

Conventional lattice Boltzmann models for the simulation of fluid dynamics are restricted by an error in the stress tensor that is negligible only for small flow velocity and at a singular value of the temperature. To that end, we propose a unified formulation that restores Galilean invariance and the isotropy of the stress tensor by introducing an extended equilibrium. This modification extends lattice Boltzmann models to simulations with higher values of the flow velocity and can be used at temperatures that are higher than the lattice reference temperature, which enhances computational efficiency by decreasing the number of required time steps. Furthermore, the extended model also remains valid for stretched lattices, which are useful when flow gradients are predominant in one direction. The model is validated by simulations of two- and three-dimensional benchmark problems, including the double shear layer flow, the decay of homogeneous isotropic turbulence, the laminar boundary layer over a flat plate and the turbulent channel flow.

Topics & Concepts

Lattice Boltzmann methodsHPP modelIsotropyLaminar flowPhysicsStatistical physicsGalilean invarianceHomogeneous isotropic turbulenceCauchy stress tensorShear flowBoundary value problemMechanicsTurbulenceClassical mechanicsBoundary layerShear stressTensor (intrinsic definition)Mathematical analysisMathematicsFlow (mathematics)Boltzmann equationCouette flowBoltzmann constantLattice (music)Viscous stress tensorFlow velocityVertex modelHomogeneousBalanced flowFluid dynamicsGalileanHagen–Poiseuille equationDiscretizationLattice model (finance)Distribution functionLattice Boltzmann Simulation StudiesFluid Dynamics and Vibration AnalysisNanofluid Flow and Heat Transfer
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