Hybrid multiscale methods II. kinetic equations

Giacomo Dimarco; Lorenzo Pareschi

doi:10.1137/070680916

Hybrid multiscale methods II. kinetic equations

Giacomo Dimarco^*, Lorenzo Pareschi

^*Corresponding author for this work

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

51 Citations (Scopus)

Abstract

In this work we consider the development of a new family of hybrid numerical methods for the solution of kinetic equations which involves different scales. The basic idea is to couple macroscopic and microscopic models in all cases in which the macroscopic model does not provide correct results. The key aspect in the development of the algorithms is the choice of a suitable hybrid representation of the solution and a merging of Monte Carlo methods in nonequilibrium regimes with deterministic methods in equilibrium ones. This approach permits us to treat efficiently both the microscopic and the macroscopic scales. Applications to the Boltzmann-BGK equation are presented to show the performance of the new methods.

Original language	English
Pages (from-to)	1169-1197
Number of pages	29
Journal	Multiscale Modeling and Simulation
Volume	6
Issue number	4
DOIs	https://doi.org/10.1137/070680916
Publication status	Published - 2007

Keywords

Boltzmann equation
Euler equation
Fluid-dynamic limit
Kinetic schemes
Monte Carlo methods
Multiscale methods

ASJC Scopus subject areas

General Chemistry
Modelling and Simulation
Ecological Modelling
General Physics and Astronomy
Computer Science Applications

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10.1137/070680916

Cite this

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abstract = "In this work we consider the development of a new family of hybrid numerical methods for the solution of kinetic equations which involves different scales. The basic idea is to couple macroscopic and microscopic models in all cases in which the macroscopic model does not provide correct results. The key aspect in the development of the algorithms is the choice of a suitable hybrid representation of the solution and a merging of Monte Carlo methods in nonequilibrium regimes with deterministic methods in equilibrium ones. This approach permits us to treat efficiently both the microscopic and the macroscopic scales. Applications to the Boltzmann-BGK equation are presented to show the performance of the new methods.",

keywords = "Boltzmann equation, Euler equation, Fluid-dynamic limit, Kinetic schemes, Monte Carlo methods, Multiscale methods",

author = "Giacomo Dimarco and Lorenzo Pareschi",

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T1 - Hybrid multiscale methods II. kinetic equations

AU - Dimarco, Giacomo

AU - Pareschi, Lorenzo

PY - 2007

Y1 - 2007

N2 - In this work we consider the development of a new family of hybrid numerical methods for the solution of kinetic equations which involves different scales. The basic idea is to couple macroscopic and microscopic models in all cases in which the macroscopic model does not provide correct results. The key aspect in the development of the algorithms is the choice of a suitable hybrid representation of the solution and a merging of Monte Carlo methods in nonequilibrium regimes with deterministic methods in equilibrium ones. This approach permits us to treat efficiently both the microscopic and the macroscopic scales. Applications to the Boltzmann-BGK equation are presented to show the performance of the new methods.

AB - In this work we consider the development of a new family of hybrid numerical methods for the solution of kinetic equations which involves different scales. The basic idea is to couple macroscopic and microscopic models in all cases in which the macroscopic model does not provide correct results. The key aspect in the development of the algorithms is the choice of a suitable hybrid representation of the solution and a merging of Monte Carlo methods in nonequilibrium regimes with deterministic methods in equilibrium ones. This approach permits us to treat efficiently both the microscopic and the macroscopic scales. Applications to the Boltzmann-BGK equation are presented to show the performance of the new methods.

KW - Boltzmann equation

KW - Euler equation

KW - Fluid-dynamic limit

KW - Kinetic schemes

KW - Monte Carlo methods

KW - Multiscale methods

UR - https://www.scopus.com/pages/publications/55249102480

U2 - 10.1137/070680916

DO - 10.1137/070680916

M3 - Article

AN - SCOPUS:55249102480

SN - 1540-3459

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JO - Multiscale Modeling and Simulation

JF - Multiscale Modeling and Simulation

IS - 4

ER -

Hybrid multiscale methods II. kinetic equations

Abstract

Keywords

ASJC Scopus subject areas

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