Grid generation and inviscid flow computation about cranked-winged airplane geometriesAn algebraic grid generation procedure that defines a patched multiple-block grid system suitable for fighter-type aircraft geometries with fuselage and engine inlet, canard or horizontal tail, cranked delta wing and vertical fin has been developed. The grid generation is based on transfinite interpolation and requires little computational power. A finite-volume Euler solver using explicit Runge-Kutta time-stepping has been adapted to this grid system and implemented on the VPS-32 vector processor with a high degree of vectorization. Grids are presented for an experimental aircraft with fuselage, canard, 70-20-cranked wing, and vertical fin. Computed inviscid compressible flow solutions are presented for Mach 2 at 3.79, 7 and 10 deg angles of attack. Conmparisons of the 3.79 deg computed solutions are made with available full-potential flow and Euler flow solutions on the same configuration but with another grid system. The occurrence of an unsteady solution in the 10 deg angle of attack case is discussed.
Document ID
19870054800
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Eriksson, L.-E. (Old Dominion University Norfolk, VA, United States)
Smith, R. E. (NASA Langley Research Center Hampton, VA, United States)
Wiese, M. R. (Old Dominion Univ. Norfolk, VA, United States)
Farr, N. (Computer Sciences Corp. El Segundo, CA, United States)