论文信息 - A MODIFIED PRESSURE-BASED ALGORITHM TO SOLVE FLOW FIELDS WITH SHOCK AND EXPANSION WAVES

A MODIFIED PRESSURE-BASED ALGORITHM TO SOLVE FLOW FIELDS WITH SHOCK AND EXPANSION WAVES

The use of collocated grid schemes in control-volume-based methods has resulted in developing different strategies for coupling mass and momentum governing equations. Defining two different velocity components at cell faces is one remedy to suppress the possible checkerboard problem in the solution domain. These velocity components are widely known as convected and convecting velocities which are normally used in the momentum and mass governing equations, respectively. However, the linearization of the nonlinear governing equations generates a number of lagged velocity components which must be carefully treated in a manner to preserve the conceptual definition of the convected and convecting velocities. In this work, a new strategy is introduced which retains the original velocity definitions in the linearization. The performance of the new strategy is then investigated by testing the shock tube problem.

Masoud Darbandi | Vahab Mokarizadeh

[1] Masoud Darbandi,et al. A New Linearization Strategy for Treating Collocated Grid Formulations , 2000 .

[2] Suhas V. Patankar,et al. A Calculation Procedure for Two-Dimensional Elliptic Situations , 1981 .

[3] R. Pletcher,et al. Computational Fluid Mechanics and Heat Transfer. By D. A ANDERSON, J. C. TANNEHILL and R. H. PLETCHER. Hemisphere, 1984. 599 pp. $39.95. , 1986, Journal of Fluid Mechanics.

[4] Masoud Darbandi,et al. General Pressure-Correction Strategy to Include Density Variation in Incompressible Algorithms , 2003 .

[5] M. Darwish,et al. A high-resolution pressure-based algorithm for fluid flow at all speeds , 2001 .

[6] R. Stephenson. A and V , 1962, The British journal of ophthalmology.

[7] G. Schneider,et al. COMPARISON OF PRESSURE-BASED VELOCITY AND MOMENTUM PROCEDURES FOR SHOCK TUBE PROBLEM , 1998 .

[8] A. W. Date,et al. SOLUTION OF NAVIER-STOKES EQUATIONS ON NONSTAGGERED GRID AT ALL SPEEDS , 1998 .

[9] C. Rhie,et al. Numerical Study of the Turbulent Flow Past an Airfoil with Trailing Edge Separation , 1983 .

[10] Timo Siikonen,et al. MODIFIED SIMPLE FORMULATION ON A COLLOCATED GRID WITH AN ASSESSMENT OF THE SIMPLIFIED QUICK SCHEME , 1996 .

[11] F. W. Schmidt,et al. USE OF A PRESSURE-WEIGHTED INTERPOLATION METHOD FOR THE SOLUTION OF THE INCOMPRESSIBLE NAVIER-STOKES EQUATIONS ON A NONSTAGGERED GRID SYSTEM , 1988 .