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Abstract In this paper, we develop a modified nonconforming virtual element with a divergence-free BDM-like reconstruction for the Navier-Stokes problem. The main idea is to use a divergence preserving velocity… Click to show full abstract
Abstract In this paper, we develop a modified nonconforming virtual element with a divergence-free BDM-like reconstruction for the Navier-Stokes problem. The main idea is to use a divergence preserving velocity reconstruction operator in the discretization of trilinear and right-hand side terms. The obtained discrete system can not only inherit the advantages of the classical nonconforming virtual element method, i.e., polygonal meshes, a unified discrete scheme, etc, but also achieve the pressure-independence of velocity errors and the effectiveness of small viscosities. Then, we also establish an optimal convergence results for H 1 , L 2 -velocity and L 2 -pressure. Finally, numerical examples are presented to support the theoretical analysis.
Journal Title: Applied Numerical Mathematics
Year Published: 2021
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