A divergence-free reconstruction of the nonconforming virtual element method for the Stokes problem

Xin Liu; Rui Li; Yufeng Nie

doi:10.1016/j.cma.2020.113351

A divergence-free reconstruction of the nonconforming virtual element method for the Stokes problem

Xin Liu, Rui Li, Yufeng Nie

School of Mathematics and Statistics

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

13 Scopus citations

Abstract

In this paper, we propose and investigate a divergence-free reconstruction of the nonconforming virtual element for the Stokes problem. By constructing the computable Raviart–Thomas-like interpolation operator, we guarantee the independence between the velocity error estimation |u−u_h|_1,h and the continuous pressure p, as it happens for the divergence-free flow solver. Moreover, this modified scheme can also inherit the advantages of the classical nonconforming virtual element method, such as, very general meshes including non-convex and degenerate elements, a unified scheme for an arbitrary-order approximation accuracy k, etc. Then, we provide the optimal L²-error estimates for the velocity gradient and the pressure by taking advantage of the Raviart–Thomas-like interpolation operator and avoiding the use of a trace inequality. Finally, three numerical experiments are presented to conform the theoretical analysis.

Original language	English
Article number	113351
Journal	Computer Methods in Applied Mechanics and Engineering
Volume	372
DOIs	https://doi.org/10.1016/j.cma.2020.113351
State	Published - 1 Dec 2020

Keywords

Divergence-free
Independence
Nonconforming virtual element method
Optimal error estimates
Polygonal meshes
Stokes problem

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10.1016/j.cma.2020.113351

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title = "A divergence-free reconstruction of the nonconforming virtual element method for the Stokes problem",

abstract = "In this paper, we propose and investigate a divergence-free reconstruction of the nonconforming virtual element for the Stokes problem. By constructing the computable Raviart–Thomas-like interpolation operator, we guarantee the independence between the velocity error estimation |u−uh|1,h and the continuous pressure p, as it happens for the divergence-free flow solver. Moreover, this modified scheme can also inherit the advantages of the classical nonconforming virtual element method, such as, very general meshes including non-convex and degenerate elements, a unified scheme for an arbitrary-order approximation accuracy k, etc. Then, we provide the optimal L2-error estimates for the velocity gradient and the pressure by taking advantage of the Raviart–Thomas-like interpolation operator and avoiding the use of a trace inequality. Finally, three numerical experiments are presented to conform the theoretical analysis.",

keywords = "Divergence-free, Independence, Nonconforming virtual element method, Optimal error estimates, Polygonal meshes, Stokes problem",

author = "Xin Liu and Rui Li and Yufeng Nie",

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T1 - A divergence-free reconstruction of the nonconforming virtual element method for the Stokes problem

AU - Liu, Xin

AU - Li, Rui

AU - Nie, Yufeng

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N2 - In this paper, we propose and investigate a divergence-free reconstruction of the nonconforming virtual element for the Stokes problem. By constructing the computable Raviart–Thomas-like interpolation operator, we guarantee the independence between the velocity error estimation |u−uh|1,h and the continuous pressure p, as it happens for the divergence-free flow solver. Moreover, this modified scheme can also inherit the advantages of the classical nonconforming virtual element method, such as, very general meshes including non-convex and degenerate elements, a unified scheme for an arbitrary-order approximation accuracy k, etc. Then, we provide the optimal L2-error estimates for the velocity gradient and the pressure by taking advantage of the Raviart–Thomas-like interpolation operator and avoiding the use of a trace inequality. Finally, three numerical experiments are presented to conform the theoretical analysis.

AB - In this paper, we propose and investigate a divergence-free reconstruction of the nonconforming virtual element for the Stokes problem. By constructing the computable Raviart–Thomas-like interpolation operator, we guarantee the independence between the velocity error estimation |u−uh|1,h and the continuous pressure p, as it happens for the divergence-free flow solver. Moreover, this modified scheme can also inherit the advantages of the classical nonconforming virtual element method, such as, very general meshes including non-convex and degenerate elements, a unified scheme for an arbitrary-order approximation accuracy k, etc. Then, we provide the optimal L2-error estimates for the velocity gradient and the pressure by taking advantage of the Raviart–Thomas-like interpolation operator and avoiding the use of a trace inequality. Finally, three numerical experiments are presented to conform the theoretical analysis.

KW - Divergence-free

KW - Independence

KW - Nonconforming virtual element method

KW - Optimal error estimates

KW - Polygonal meshes

KW - Stokes problem

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JO - Computer Methods in Applied Mechanics and Engineering

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A divergence-free reconstruction of the nonconforming virtual element method for the Stokes problem

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Keywords

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