多孔弹性介质中平流-扩散-反应两种模型的虚元近似

IF 1.6 3区数学 Q1 MATHEMATICS

Mathematical Modelling and Analysis Pub Date : 2022-11-10 DOI:10.3846/mma.2022.15542

Nitesh Verma, Sarvesh Kumar

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引用次数: 0

摘要

本文提出了用虚元法逼近由多孔弹性方程和平流扩散反应方程组成的耦合数学模型。空间离散化依赖于包含分段线性多项式和非多项式的位移、压力和浓度的虚拟元素空间，以及分段常数的总压力;时间导数的近似采用了一种反向的德勒格式。利用显式格式的标准技术，导出了所得到的完全离散格式的适定性。此外，在一定的网格规则假设下，通过引入合适的投影算子建立最优先验误差估计。通过数值实验验证了该方法的收敛速度和性能。

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Virtual element Approximations for two species Model of the advection-diffusion-reaction in Poroelastic Media

This paper proposes virtual element methods for approximating the mathematical model consisting of coupled poroelastic and Advection-Diffusion-Reaction (ADR) equations. The space discretization relies on virtual element spaces containing piecewise linear polynomials as well as non-polynomials for displacement, pressure and concentrations, and piecewise constant for total pressure; a backwardEuler scheme is employed for the approximation of time derivative. Using standard techniques of explicit schemes, the well-posedness of the resultant fully discrete scheme is derived. Moreover, under certain regularity assumptions on the mesh, optimal apriori error estimates are established by introducing suitable projection operators. Several numerical experiments are presented to validate the theoretical convergence rate and exhibit the proposed scheme’s performance.

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