论文信息 - Preliminary analysis for a Mach 8 crossflow transition experiment on the Pegasus (R) space booster

Preliminary analysis for a Mach 8 crossflow transition experiment on the Pegasus (R) space booster

A boundary-layer transition is proposed for a future flight mission of the air-launched Pegasus space booster. The flight experiment requires attaching a glove assembly to the wing of the first-stage booster. The glove design consists of a spring and hook attachment system which allows for thermal growth of a steel 4130 skin. The results from one- and two-dimensional thermal analyses of the initial design are presented. Results obtained from the thermal analysis using turbulent flow conditions showed a maximum temperature of approximately 305 C and a chordwise temperature gradient of less than 8.9 C/cm for the critical areas in the upper glove skin. The temperatures obtained from these thermal analyses are well within the required temperature limits of the glove.

Leslie Gong | W. Lance Richards | Robert D. Quinn | Richard C. Monaghan

[1] Kenneth Sutton,et al. Approximate convective heating equations for hypersonic flows , 1979 .

[2] L. Lees. Laminar Heat Transfer Over Blunt-Nosed Bodies at Hypersonic Flight Speeds , 1956 .

[3] F. R. Riddell,et al. Theory of Stagnation Point Heat Transfer in Dissociated Air , 1958 .

[4] Paul Kolodziej,et al. Aerothermal test results from the second flight of the Pegasus booster , 1992 .

[5] Ernst R. Eckert. SURVEY OF BOUNDARY LAYER HEAT TRANSFER AT HIGH VELOCITIES AND HIGH TEMPERATURES , 1960 .

[6] Arild Bertelrud,et al. Plans for in-flight measurement of hypersonic crossflow transition on the Pegasus launch vehicle , 1992 .