arXiv:2109.04013 Abstract | arXiv Analytics

arXiv:2109.04013 [math.NA]Abstract References Reviews Resources

New stabilized $P_1\times P_0$ finite element methods for nearly inviscid and incompressible flows

Published 2021-09-09Version 1

This work proposes a new stabilized $P_1\times P_0$ finite element method for solving the incompressible Navier--Stokes equations. The numerical scheme is based on a reduced Bernardi--Raugel element with statically condensed face bubbles and is pressure-robust in the small viscosity regime. For the Stokes problem, an error estimate uniform with respect to the kinematic viscosity is shown. For the Navier--Stokes equation, the nonlinear convection term is discretized using an edge-averaged finite element method. In comparison with classical schemes, the proposed method does not require tuning of parameters and is validated for competitiveness on several benchmark problems in 2 and 3 dimensional space.

Categories: math.NA, cs.NA

Keywords: incompressible flows, navier-stokes equation, nonlinear convection term, error estimate uniform, small viscosity regime

Related articles: Most relevant | Search more

arXiv:2205.00954 [math.NA] (Published 2022-05-02)

Virtual Element Method for the Navier--Stokes Equation coupled with the Heat Equation

Paola Francesca Antonietti, Giuseppe Vacca, Marco Verani

arXiv:2301.04923 [math.NA] (Published 2023-01-12)

Semi-Lagrangian Finite-Element Exterior Calculus for Incompressible Flows

Wouter Tonnon, Ralf Hiptmair

arXiv:2301.02077 [math.NA] (Published 2023-01-05)

On the $L^\infty(0,T;L^2(Ω)^d)$-stability of Discontinuous Galerkin schemes for incompressible flows

Pablo Alexei Gazca-Orozco, Alex Kaltenbach