Central schemes for hydrodynamical limits of discrete-velocity kinetic models

E. Gabetta; L. Pareschi; M. Ronconi

doi:10.1080/00411450008205885

Central schemes for hydrodynamical limits of discrete-velocity kinetic models

E. Gabetta, L. Pareschi, M. Ronconi

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

The hydrodynamical scalings of many discrete-velocity kinetic models lead to a small-relaxation time behavior governed by the corresponding Euler type hyperbolic equations or Navier-Stokes type parabolic equations. Using as a prototype a simple discrete-velocity model of the Boltzmann equation we develop a class of central schemes with the correct asymptotic limit that work with uniform second order accuracy with respect to the scaling parameter. Numerical results for both the fluid-dynamic limit and the diffusive limit show the robustness of the present approach.

Original language	English
Pages (from-to)	465-477
Number of pages	13
Journal	Transport Theory and Statistical Physics
Volume	29
Issue number	3-5
DOIs	https://doi.org/10.1080/00411450008205885
State	Published - 2000
Externally published	Yes

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10.1080/00411450008205885

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title = "Central schemes for hydrodynamical limits of discrete-velocity kinetic models",

abstract = "The hydrodynamical scalings of many discrete-velocity kinetic models lead to a small-relaxation time behavior governed by the corresponding Euler type hyperbolic equations or Navier-Stokes type parabolic equations. Using as a prototype a simple discrete-velocity model of the Boltzmann equation we develop a class of central schemes with the correct asymptotic limit that work with uniform second order accuracy with respect to the scaling parameter. Numerical results for both the fluid-dynamic limit and the diffusive limit show the robustness of the present approach.",

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AU - Pareschi, L.

AU - Ronconi, M.

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N2 - The hydrodynamical scalings of many discrete-velocity kinetic models lead to a small-relaxation time behavior governed by the corresponding Euler type hyperbolic equations or Navier-Stokes type parabolic equations. Using as a prototype a simple discrete-velocity model of the Boltzmann equation we develop a class of central schemes with the correct asymptotic limit that work with uniform second order accuracy with respect to the scaling parameter. Numerical results for both the fluid-dynamic limit and the diffusive limit show the robustness of the present approach.

AB - The hydrodynamical scalings of many discrete-velocity kinetic models lead to a small-relaxation time behavior governed by the corresponding Euler type hyperbolic equations or Navier-Stokes type parabolic equations. Using as a prototype a simple discrete-velocity model of the Boltzmann equation we develop a class of central schemes with the correct asymptotic limit that work with uniform second order accuracy with respect to the scaling parameter. Numerical results for both the fluid-dynamic limit and the diffusive limit show the robustness of the present approach.

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JO - Transport Theory and Statistical Physics

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Central schemes for hydrodynamical limits of discrete-velocity kinetic models

Abstract

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