Minisymposium: Preconditioners for the Incompressible Navier Stokes equations
At the
SIAM Conference on Computational Science and Engineering, February
25-March 1, 2013, in Boston, Massachusetts, USA
we organized the minisymposium:
MS163 and MS187Preconditioners
for the Incompressible Navier Stokes equations.
The minisymposium consists of two parts. Below we give the details of the presentations given in the minisymposium.
MS163Preconditioners for the Incompressible Navier Stokes equations I
Organizers: Michele Benzi and Kees Vuik
Date: Wednesday, February 27
-
4:30-4:55 An Incompressible Viscous Flow Finite Element Solver for 1D-3D Coupled Fluid Model
Maxim A. Olshanskii, University of Houston, USA; Tatiana Dobroserdova, Moscow State University, Russia
-
5:00-5:25
PALADINS: Scalable Time-adaptive Algebraic Splitting and Preconditioners for the Navier-Stokes Equations
(related
thesis)
Umberto E. Villa and Alessandro Veneziani, Emory University, USA
-
5:30-5:55 Computational Algorithms for Stability Analysis of Incompressible Flows
Howard C. Elman, University of Maryland, College Park, USA; Minghao Wu, University of Maryland, USA
-
6:00-6:25
Approximate Preconditioners for the Unsteady Navier-Stokes Equations and Applications to Hemodynamics Simulations
Gwenol Grandperrin, EPFL, Switzerland; Alfio Quarteroni and Simone Deparis, École Polytechnique Fédérale de Lausanne, Switzerland
MS187
Preconditioners for the Incompressible Navier Stokes equations II
Organizers: Michele Benzi and Kees Vuik
Date: Thursday, February 28
-
9:30-9:55
Efficient Augmented Lagrangian-type Preconditioning for the Oseen Problem using Grad-Div Stabilization
Timo Heister, Texas A&M University, USA
-
10:00-10:25
Performance of SIMPLE-type Preconditioners in CFD Applications for Maritime Industry
(related
paper)
Chris Klaij, Maritime Research Institute The Netherlands; C Vuik, Delft University of Technology, Netherlands
-
10:30-10:55
Optimal Control for the Oseen equation with a distributed control function
Owe Axelsson, Uppsala University, Sweden, Petia Boyanova, Bulgarian Academy of Sciences, Sofia, Bulgaria and Maya Neytcheva, Uppsala University, Sweden
Contact information:
Kees
Vuik