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140122  eng 
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a 9783322878731

100 
1 

a Bristeau, Marie Odile
e [editor]

245 
0 
0 
a Numerical Simulation of Compressible NavierStokes Flows
h Elektronische Ressource
b A GAMM Workshop
c edited by Marie Odile Bristeau

250 


a 1st ed. 1987

260 


a Wiesbaden
b Vieweg+Teubner Verlag
c 1987, 1987

300 


a VII, 344 p
b online resource

505 
0 

a Presentation of Problems and Discussion of Results  Numerical Simulation of Compressible Viscous Flows. A Survey  Experimental Flowfields around NACA0012 Airfoils located in Subsonic and Supersonic Rarefied Air Streams  Viscous Perturbation for the Compressible Euler Equations. Application to the Numerical Simulation of Compressible Viscous Flows  Solution of the Compressible NavierStokes Equations by LeastSquares and Finite Element Methods  Computation of Viscous Transonic Flows using an Unsteady Type Method and Zonal Grid Refinement Technique  A Multistage Multigrid Method for the Compressible NavierStokes Equations  Solutions of the NavierStokes Equations for Sub and Supersonic Flows in Rarefied Gases  A Finite Element Method for Solving NavierrStokes Equations  Using an Unfactored Implicit PredictorCorrector Method  Implicit Central Difference Simulation of Compressible NavierStokes Flow Over a NACA0012 Airfoil  Numerical Solution of Twodimensional Compressible NavierStokes Equations Using Rational RungeKutta Method  Compressible Viscous Flow around a NACA0012 Airfoil  Solution of the Compressible NavierStokes Equations for a Double Throat Nozzle  Solution of 2D Compressible NavierStokes Equations for a Double Throat Nozzle by Means of Implicit Finite Volume Method  Computations for Viscous Compressible Flows in a Double Throat Nozzle  Numerical Simulation of Compressible Laminar Nozzle Flow  Numerical Simulation of Compressible NavierStokes Flow in a Double Throat Nozzle  An Implicit FluxSplit Algorithm for the Compressible NavierStokes Equations

653 


a Engineering Fluid Dynamics

653 


a Fluid mechanics

653 


a Physics and Astronomy

653 


a Computer simulation

653 


a Computer Modelling

653 


a Mathematical physics

653 


a Physics

653 


a Astronomy

653 


a Theoretical, Mathematical and Computational Physics

041 
0 
7 
a eng
2 ISO 6392

989 


b SBA
a Springer Book Archives 2004

490 
0 

a Notes on Numerical Fluid Mechanics and Multidisciplinary Design

028 
5 
0 
a 10.1007/9783322878731

856 
4 
0 
u https://doi.org/10.1007/9783322878731?nosfx=y
x Verlag
3 Volltext

082 
0 

a 620.1064

520 


a With the advent of super computers during the last ten years, the numerical simulation of viscous fluid flows modeled by the NavierStokes equations is becoming a most useful tool in Aircraft and Engine Design. In fact, compressible NavierStokes solvers tend to constitute the basic tools for many industrial applications occuring in the simulation of very complex turbulent and combustion phenomena. In Aerospace Engineering, as an exemple, their mathematical modelization requires reliable and robust methods for solving very stiff non linear partial differential equations. For the above reasons, it was clear that a workshop on this topic would be of interest for the CFD community in order to compare accuracy and efficiency of NavierStokes solvers on selected external and internal flow problems using different numerical approaches. The workshop was held on 46 December 1985 at Nice, France and organized by INRIA with the sponsorship of the GAMM Committee on Numerical Methods in Fluid Mechanics
