论文信息 - Design of a wing shape for study of hypersonic crossflow transition in flight

Design of a wing shape for study of hypersonic crossflow transition in flight

Abstract Computational fluid dynamics methods were used in the design of a wing shape for study of hypersonic crossflow transition in flight. The flight experiment is to be performed on the delta wing of the first stage of a Pegasus launch vehicle as a piggy-back experiment to support boundary-layer stability code development and validation. The design goal is to obtain crossflow-induced transition at 20–40% of the chord for a flight Mach number of approximately six. The present paper describes the design and analysis process utilized to obtain desired glove shape. A variety of schemes were used in the design, ranging from simple empirical crossflow correlations to three-dimensional Navier-Stokes codes in conjunction with linear stability N- factor computations. The sensitivity to various parameters, such as trajectory variations, allowable wing thickness, leading-edge radius and surface temperature, is also discussed.

A. Godil | A. Bertelrud | A. Godil | A. Bertelrud

[1] K. Kaups,et al. Compressible Laminar Boundary Layers with Suction on Swept and Tapered Wings , 1977 .

[2] A. Moitra. Euler solutions for high-speed flow about complex three-dimensional configurations , 1986 .

[3] M. R. Malik,et al. COSAL: A black-box compressible stability analysis code for transition prediction in three-dimensional boundary layers , 1982 .

[4] Venkit Iyer,et al. Application of Linear Stability Theory in Laminar Flow Design , 1991 .

[5] Michael Gaster,et al. A note on the relation between temporally-increasing and spatially-increasing disturbances in hydrodynamic stability , 1962, Journal of Fluid Mechanics.