New Unconditionally Stable Schemes for the Navier-Stokes Equations
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Article de revue
Este ítem está publicado en
Communications in Computational Physics. 2021-06-01, vol. 30, n° 4, p. 1083-1117
Resumen en inglés
In this paper we propose some efficient schemes for the Navier-Stokes equa-
tions. The proposed schemes are constructed based on an auxiliary variable reformu-
lation of the underlying equations, recently introduced by ...Leer más >
In this paper we propose some efficient schemes for the Navier-Stokes equa-
tions. The proposed schemes are constructed based on an auxiliary variable reformu-
lation of the underlying equations, recently introduced by Li et al. [20]. Our objective
is to construct and analyze improved schemes, which overcome some of the shortcom-
ings of the existing schemes. In particular, our new schemes have the capability to capture steady solutions for large Reynolds numbers and time step sizes, while keeping the error analysis available. The novelty of our method is twofold: i) Use the Uzawa algorithm to decouple the pressure and the velocity. This is to replace the pressure-
correction method considered in [20]. ii) Inspired by the paper [21], we modify the
algorithm using an ingredient to capture stationary solutions. In all cases we ana-
lyze a first- and second-order schemes and prove the unconditionally energy stability.
We also provide an error analysis for the first-order scheme. Finally we validate our
schemes by performing simulations of the Kovasznay flow and double lid driven cav-
ity flow. These flow simulations at high Reynolds numbers demonstrate the robustness and efficiency of the proposed schemes< Leer menos
Palabras clave en inglés
Navier-Stokes equations
auxiliary variable approach
unconditional stability
finite element method.
Centros de investigación