Implicit treatment of the unsteady full potential equation in conservation form
Abstract
An implicit, conservative treatment for the unsteady full potential equation in two-dimensions is presented. The method employs a local time linearization for density, and introduces flux biasing concepts based on sonic conditions for the generation of artificial viscosity to capture shocks without any overshoots. The boundary condition is treated implicitly using a splitting procedure consistent with the approximate factorization scheme. This allows for extremely large Courant numbers, even for nonorthogonal grid at the body. The method has application not only to unsteady problems, but also to generate the starting blunt body solution for a supersonic full potential marching code. Results are presented for flows over cylinders, spheres and airfoils. Comparisons are made with available Euler and full potential results, and are in excellent agreement.
- Publication:
-
AIAA, Aerospace Sciences Meeting
- Pub Date:
- January 1984
- Bibcode:
- 1984aiaa.meetQW...S
- Keywords:
-
- Airfoil Profiles;
- Axisymmetric Flow;
- Flow Equations;
- Potential Flow;
- Two Dimensional Flow;
- Unsteady Flow;
- Boundary Conditions;
- Boundary Value Problems;
- Computational Fluid Dynamics;
- Cylindrical Bodies;
- Euler Equations Of Motion;
- Flow Deflection;
- Flow Velocity;
- Linearization;
- Spheres;
- Viscous Flow;
- Fluid Mechanics and Heat Transfer