Numerical analysis of some supersonic viscous flows related to inlet and nozzle systems
Abstract
A numerical method originally developed for three-dimensional supersonic inlet flow calculations is extended and applied to the study of two-dimensional and three-dimensional flows associated with arbitrary propulsion systems. The method is based on the forward spatial marching solution of a reduced form of the three-dimensional steady Navier-Stokes equations in which streamwise pressure gradients are retained in both the subsonic and supersonic regions. The present paper briefly describes the analysis and then shows three applications. In the first application, a wall transpiration study has been performed for the two-dimensional shock wave/turbulent boundary layer interaction flow field with application to an inlet configuration. The second application treats a rectangular high speed inlet with a swept sideplate including the effects of sideplate spillage. Finally, the method is utilized to analyze the interaction of an under-expanded supersonic jet with an ambient flow. Computed results are examined and compared with available experimental measurements. It is demonstrated that the present numerical method is capable of numerically simulating complex two- and three-dimensional flows relevant to hypersonic propulsion systems in a manner which both shows good agreement with data when such data is available, and which shows the complex flow features in the absence of data.
- Publication:
-
22nd Joint Propulsion Conference
- Pub Date:
- June 1986
- Bibcode:
- 1986jpha.confR....K
- Keywords:
-
- Computational Fluid Dynamics;
- Inlet Flow;
- Nozzle Flow;
- Supersonic Flow;
- Viscous Flow;
- Boundary Value Problems;
- Pressure Distribution;
- Shock Wave Interaction;
- Subsonic Flow;
- Three Dimensional Flow;
- Fluid Mechanics and Heat Transfer