Mulit-Grid Methods for Stokes and Navier-Stokes Equations. Transforming Smoothers: Algorithms and Numerical Results.
G. Wittum (1989)
Numerische Mathematik
Similarity:
G. Wittum (1989)
Numerische Mathematik
Similarity:
R. H. Dyer, D. E. Edmunds (1971)
Colloquium Mathematicae
Similarity:
Soren Jensen (1991)
Numerische Mathematik
Similarity:
Yau, Horng-Tzer (1998)
Documenta Mathematica
Similarity:
Michael Wiegner (2003)
Banach Center Publications
Similarity:
M. Pulvirenti (2008)
Bollettino dell'Unione Matematica Italiana
Similarity:
This talk, based on a research in collaboration with E. Caglioti and F.Rousset, deals with a modified version of the two-dimensional Navier-Stokes equation wich preserves energy and momentum of inertia. Such a new equation is motivated by the occurrence of different dissipation time scales. It is also related to the gradient flow structure of the 2-D Navier-Stokes equation. The hope is to understand intermediate asymptotics.
V. Girault, P.A. Raviart (1979)
Numerische Mathematik
Similarity:
Marzia Bisi, Laurent Desvillettes (2014)
ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique
Similarity:
We present in this paper the formal passage from a kinetic model to the incompressible Navier−Stokes equations for a mixture of monoatomic gases with different masses. The starting point of this derivation is the collection of coupled Boltzmann equations for the mixture of gases. The diffusion coefficients for the concentrations of the species, as well as the ones appearing in the equations for velocity and temperature, are explicitly computed under the Maxwell molecule assumption in...
Vitoriano Ruas (1985)
Numerische Mathematik
Similarity:
Rainer Picard (2008)
Banach Center Publications
Similarity:
The classical Stokes system is reconsidered and reformulated in a functional analytical setting allowing for low regularity of the data and the boundary. In fact the underlying domain can be any non-empty open subset Ω of ℝ³. A suitable solution concept and a corresponding solution theory is developed.
V. Girault (1976)
Numerische Mathematik
Similarity:
Jie Shen (1992)
Numerische Mathematik
Similarity:
Crispo, F., Maremonti, P. (2004)
Zapiski Nauchnykh Seminarov POMI
Similarity:
Jishan Fan, Xuanji Jia, Yong Zhou (2019)
Applications of Mathematics
Similarity:
This paper proves a logarithmic regularity criterion for 3D Navier-Stokes system in a bounded domain with the Navier-type boundary condition.
P. LeTallec (1980)
Numerische Mathematik
Similarity:
Zujin Zhang, Weijun Yuan, Yong Zhou (2019)
Applications of Mathematics
Similarity:
We review the developments of the regularity criteria for the Navier-Stokes equations, and make some further improvements.
Yasushi Taniuchi (1997)
Manuscripta mathematica
Similarity: