# Finite Element Approximation of Incompressible Navier-Stokes Equations with Slip Boundary Condition.

Numerische Mathematik (1986/87)

- Volume: 50, page 697-722
- ISSN: 0029-599X; 0945-3245/e

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topVerfürth, Rüdiger. "Finite Element Approximation of Incompressible Navier-Stokes Equations with Slip Boundary Condition.." Numerische Mathematik 50 (1986/87): 697-722. <http://eudml.org/doc/133179>.

@article{Verfürth1986/87,

author = {Verfürth, Rüdiger},

journal = {Numerische Mathematik},

keywords = {mixed finite element approximation; stationary, incompressible Navier- Stokes equations; slip boundary conditions; simulation of flows; free surfaces; high angles of attack; saddle-point formulation of the boundary conditions; Babuška paradox; stable mixed finite element; bubble functions; optimal error estimates; minimal regularity assumptions},

pages = {697-722},

title = {Finite Element Approximation of Incompressible Navier-Stokes Equations with Slip Boundary Condition.},

url = {http://eudml.org/doc/133179},

volume = {50},

year = {1986/87},

}

TY - JOUR

AU - Verfürth, Rüdiger

TI - Finite Element Approximation of Incompressible Navier-Stokes Equations with Slip Boundary Condition.

JO - Numerische Mathematik

PY - 1986/87

VL - 50

SP - 697

EP - 722

KW - mixed finite element approximation; stationary, incompressible Navier- Stokes equations; slip boundary conditions; simulation of flows; free surfaces; high angles of attack; saddle-point formulation of the boundary conditions; Babuška paradox; stable mixed finite element; bubble functions; optimal error estimates; minimal regularity assumptions

UR - http://eudml.org/doc/133179

ER -

## Citations in EuDML Documents

top- Eberhard Bänsch, Klaus Deckelnick, Optimal error estimates for the Stokes and Navier-Stokes equations with slip-boundary condition
- M. D. Gunzburger, L. S. Hou, Th. P. Svobodny, Analysis and finite element approximation of optimal control problems for the stationary Navier-Stokes equations with Dirichlet controls
- Shawn W. Walker, A mixed formulation of a sharp interface model of stokes flow with moving contact lines

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