Open AccessHeat-Transfer Tests on the Rockwell International Space Shuttle Orbiter with and without Simulated Protuberances
Author(s) -
L. D. Carter,
C. E. Kaul
Publication year - 1975
Publication title -
nasa sti repository (national aeronautics and space administration)
Language(s) - English
Resource type - Reports
DOI - 10.21236/ada012876
Subject(s) - orbiter , space shuttle , rockwell scale , space (punctuation) , aerospace engineering , materials science , computer science , engineering , composite material , operating system
: Aerothermodynamic tests on the forward half of the Rockwell International Space Shuttle Orbiter Configuration 140C were conducted at Mach number 8. The phase-change paint and thin-skin thermocouple techniques were used to determine the aerodynamic heating rates on the Orbiter models during simulated atmospheric reentry. Smooth 0.04-scale models and models with scaled protuberances and indentations which simulated the windshields, cargo bay door hinges, vents, and thruster nozzles were tested over an angle-of-attack range from 20 to 45 deg at yaw angles from -5 to 5 deg and at Reynolds numbers, based on the total Orbiter scaled length, from 2.15 to 15.9 million. Comparisons of the model heat-transfer rates obtained with a smooth surface and with scaled protuberances are presented.
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