Numerical investigation of internal high-speed viscous flows using a parabolic techniqueA feasibility study has been conducted to assess the applicability of an existing parabolic analysis (ADD-Axisymmetric Diffuser Duct), developed previously for subsonic viscous internal flows, to mixed supersonic/subsonic flows with heat addition simulating a SCRAMJET combustor. A study was conducted with the ADD code modified to include additional convection effects in the normal momentum equation when supersonic expansion and compression waves are present. A set of test problems with weak shock and expansion waves have been analyzed with this modified ADD method and stable and accurate solutions were demonstrated provided the streamwise step size was maintained at levels larger than the boundary layer displacement thickness. Calculations made with further reductions in step size encountered departure solutions consistent with strong interaction theory. Calculations were also performed for a flow field with a flame front in which a specific heat release was imposed to simulate a SCRAMJET combustor. In this case the flame front generated relatively thick shear layers which aggravated the departure solution problem. Qualitatively correct results were obtained for these cases using a marching technique with the convective terms in the normal momentum equation suppressed. It is concluded from the present study that for the class of problems where strong viscous/inviscid interactions are present a global iteration procedure is required.
Document ID
19850057617
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Anderson, O. L. (United Technologies Research Center East Hartford, CT, United States)
Power, G. D. (United Technologies Research Center East Hartford, CT, United States)
Date Acquired
August 12, 2013
Publication Date
July 1, 1985
Subject Category
Aerodynamics
Report/Patent Number
AIAA PAPER 85-1409Report Number: AIAA PAPER 85-1409