Numerical investigation of viscous effects on the nonlinear Burgers equation

Muhammad Imran KHAN; Abdul RAUF; Abdullah SHAH

doi:10.3906/MAT-2001-7

Numerical investigation of viscous effects on the nonlinear Burgers equation

Muhammad Imran KHAN, Abdul RAUF, Abdullah SHAH^*

^*Corresponding author for this work

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

1 Scopus citations

Abstract

This research article presents the numerical solution of the viscous Burgers equation. The diagonally implicit fractional step θ (DIFST) scheme is used for the time discretization and the space derivative is discretized by the conforming finite element method with quadrilateral mesh. The viscosity effect on the shock wave is calculated with an estimation of the L₂ error. For comparison of different time discretization schemes, three test problems are computed. The stability and accuracy of the schemes are given by estimating the L₂ error norm. Numerical simulation for one and two dimensional problems are given and illustrated graphically. The effect of the viscosity parameter on the nonlinearity of the Burger equation is computed. The stability of the schemes for different time steps with CPU time is also given.

Original language	English
Pages (from-to)	529-539
Number of pages	11
Journal	Turkish Journal of Mathematics
Volume	45
Issue number	1
DOIs	https://doi.org/10.3906/MAT-2001-7
State	Published - 2021
Externally published	Yes

Bibliographical note

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Keywords

Burgers equation
DUNE PDELab
conforming finite element method
diagonally implicit fractional step θ scheme

ASJC Scopus subject areas

General Mathematics

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10.3906/MAT-2001-7

Cite this

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title = "Numerical investigation of viscous effects on the nonlinear Burgers equation",

abstract = "This research article presents the numerical solution of the viscous Burgers equation. The diagonally implicit fractional step θ (DIFST) scheme is used for the time discretization and the space derivative is discretized by the conforming finite element method with quadrilateral mesh. The viscosity effect on the shock wave is calculated with an estimation of the L2 error. For comparison of different time discretization schemes, three test problems are computed. The stability and accuracy of the schemes are given by estimating the L2 error norm. Numerical simulation for one and two dimensional problems are given and illustrated graphically. The effect of the viscosity parameter on the nonlinearity of the Burger equation is computed. The stability of the schemes for different time steps with CPU time is also given.",

keywords = "Burgers equation, DUNE PDELab, conforming finite element method, diagonally implicit fractional step θ scheme",

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volume = "45",

pages = "529--539",

journal = "Turkish Journal of Mathematics",

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T1 - Numerical investigation of viscous effects on the nonlinear Burgers equation

AU - KHAN, Muhammad Imran

AU - RAUF, Abdul

AU - SHAH, Abdullah

PY - 2021

Y1 - 2021

N2 - This research article presents the numerical solution of the viscous Burgers equation. The diagonally implicit fractional step θ (DIFST) scheme is used for the time discretization and the space derivative is discretized by the conforming finite element method with quadrilateral mesh. The viscosity effect on the shock wave is calculated with an estimation of the L2 error. For comparison of different time discretization schemes, three test problems are computed. The stability and accuracy of the schemes are given by estimating the L2 error norm. Numerical simulation for one and two dimensional problems are given and illustrated graphically. The effect of the viscosity parameter on the nonlinearity of the Burger equation is computed. The stability of the schemes for different time steps with CPU time is also given.

AB - This research article presents the numerical solution of the viscous Burgers equation. The diagonally implicit fractional step θ (DIFST) scheme is used for the time discretization and the space derivative is discretized by the conforming finite element method with quadrilateral mesh. The viscosity effect on the shock wave is calculated with an estimation of the L2 error. For comparison of different time discretization schemes, three test problems are computed. The stability and accuracy of the schemes are given by estimating the L2 error norm. Numerical simulation for one and two dimensional problems are given and illustrated graphically. The effect of the viscosity parameter on the nonlinearity of the Burger equation is computed. The stability of the schemes for different time steps with CPU time is also given.

KW - Burgers equation

KW - DUNE PDELab

KW - conforming finite element method

KW - diagonally implicit fractional step θ scheme

UR - https://www.scopus.com/pages/publications/85100697390

U2 - 10.3906/MAT-2001-7

DO - 10.3906/MAT-2001-7

M3 - Article

AN - SCOPUS:85100697390

SN - 1300-0098

VL - 45

SP - 529

EP - 539

JO - Turkish Journal of Mathematics

JF - Turkish Journal of Mathematics

IS - 1

ER -

Numerical investigation of viscous effects on the nonlinear Burgers equation

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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