Pieter Van Leemput scite author profile

In this article we construct a hybrid model by spatially coupling a lattice Boltzmann model (LBM) to a finite difference discretization of the partial differential equation (PDE) for reaction-diffusion systems. Because the LBM has more variables (the particle distribution functions) than the PDE (only the particle density), we have a one-to-many mapping problem from the PDE to the LBM domain at the interface. We perform this mapping using either results from the Chapman-Enskog expansion or a point-wise iterative scheme that approximates these analytical relations numerically. Most importantly, we show that the global spatial discretization error of the hybrid model is one order less accurate than the local error made at the interface. We derive closed expressions for the spatial discretization error at steady state and verify them numerically for several examples on the one-dimensional domain.

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Mesoscale Analysis of the Equation-Free Constrained Runs Initialization Scheme

Leemput¹,

Vanroose²,

Roose³

2008

Multiscale Model. Simul.

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Coarse-grained numerical bifurcation analysis of lattice Boltzmann models

Leemput

Lust

Kevrekidis

2005

Physica D: Nonlinear Phenomena

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Numerical and Analytical Spatial Coupling of a Lattice Boltzmann Model and a Partial Differential Equation

Leemput

Vanroose

Roose

2006

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Smooth initialization of lattice Boltzmann schemes

Leemput

Rheinländer

Junk

2009

Computers & Mathematics with Applications

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