Simulating the Brio model via generalized Rusanov scheme in magnetohydrodynamics

H. G. Abdelwahed; Mahmoud A.E. Abdelrahman; Turki saad bin hussain; A. F. Alsarhan; Kamel Mohamed

doi:10.1016/j.rinp.2024.107661

Simulating the Brio model via generalized Rusanov scheme in magnetohydrodynamics

H. G. Abdelwahed, Mahmoud A.E. Abdelrahman, Turki saad bin hussain, A. F. Alsarhan, Kamel Mohamed

Physics

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

Abstract

The Brio system is a nonlinear system of conservation laws that is used to analyze plasmas. The current research presents numerical solutions to this model exposed to initial conditions using the generalized Rusanov (G. Rusanov) scheme. This method is made up of predictor and corrector phases. In the predictor step, a control parameter for the scheme's numerical diffusion is present and is controlled using limiter theory and Riemann invariant. The balance conservation equation is considered via the corrector step. The numerical simulation depict that the suggested G. Rusanov method has a high resolution and gives precise simulations for the Brio model in flow regimes with significant shocks and rarefaction. Finally, the G. Rusanov method can also be used to solve a variety of other nonlinear conservation laws.

Original language	English
Article number	107661
Journal	Results in Physics
Volume	60
DOIs	https://doi.org/10.1016/j.rinp.2024.107661
State	Published - May 2024

Keywords

Brio system
G. Rusanov scheme
Hyperbolic conservation laws
Magnetohydrodynamics

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10.1016/j.rinp.2024.107661

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title = "Simulating the Brio model via generalized Rusanov scheme in magnetohydrodynamics",

abstract = "The Brio system is a nonlinear system of conservation laws that is used to analyze plasmas. The current research presents numerical solutions to this model exposed to initial conditions using the generalized Rusanov (G. Rusanov) scheme. This method is made up of predictor and corrector phases. In the predictor step, a control parameter for the scheme's numerical diffusion is present and is controlled using limiter theory and Riemann invariant. The balance conservation equation is considered via the corrector step. The numerical simulation depict that the suggested G. Rusanov method has a high resolution and gives precise simulations for the Brio model in flow regimes with significant shocks and rarefaction. Finally, the G. Rusanov method can also be used to solve a variety of other nonlinear conservation laws.",

keywords = "Brio system, G. Rusanov scheme, Hyperbolic conservation laws, Magnetohydrodynamics",

author = "Abdelwahed, \{H. G.\} and Abdelrahman, \{Mahmoud A.E.\} and hussain, \{Turki saad bin\} and Alsarhan, \{A. F.\} and Kamel Mohamed",

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doi = "10.1016/j.rinp.2024.107661",

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AU - Abdelwahed, H. G.

AU - Abdelrahman, Mahmoud A.E.

AU - hussain, Turki saad bin

AU - Alsarhan, A. F.

AU - Mohamed, Kamel

PY - 2024/5

Y1 - 2024/5

N2 - The Brio system is a nonlinear system of conservation laws that is used to analyze plasmas. The current research presents numerical solutions to this model exposed to initial conditions using the generalized Rusanov (G. Rusanov) scheme. This method is made up of predictor and corrector phases. In the predictor step, a control parameter for the scheme's numerical diffusion is present and is controlled using limiter theory and Riemann invariant. The balance conservation equation is considered via the corrector step. The numerical simulation depict that the suggested G. Rusanov method has a high resolution and gives precise simulations for the Brio model in flow regimes with significant shocks and rarefaction. Finally, the G. Rusanov method can also be used to solve a variety of other nonlinear conservation laws.

AB - The Brio system is a nonlinear system of conservation laws that is used to analyze plasmas. The current research presents numerical solutions to this model exposed to initial conditions using the generalized Rusanov (G. Rusanov) scheme. This method is made up of predictor and corrector phases. In the predictor step, a control parameter for the scheme's numerical diffusion is present and is controlled using limiter theory and Riemann invariant. The balance conservation equation is considered via the corrector step. The numerical simulation depict that the suggested G. Rusanov method has a high resolution and gives precise simulations for the Brio model in flow regimes with significant shocks and rarefaction. Finally, the G. Rusanov method can also be used to solve a variety of other nonlinear conservation laws.

KW - Brio system

KW - G. Rusanov scheme

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JO - Results in Physics

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Simulating the Brio model via generalized Rusanov scheme in magnetohydrodynamics

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