STS performance enhancements for a heads up ascent design

Abstract

A method of increasing the STS (space transportation system) lift capability by flying the SSV (Space Shuttle vehicle) in a heads up attitude during the first stage atmospheric flight as opposed to the current heads down attitude is presented. The paper reveals that the STS lift capability and SRM (solid rocket motor) burnrate definition are sensitive to the magnitude and direction of normal aerodynamic force acting on the SSV during atmospheric ascent. The STS operational trajectory design angle of attack will permit increases in SRM burnrate definition and STS lift capability for the proposed heads up ascent when compared to the current heads down ascent. For a heads up ascent the SRM burnrate can be increased 7 percent with a corresponding 4000 lb increase in STS lift capability. A comparison of the heads up and heads down ascent reveals similar performance trades for changes in trajectory shaping parameters and SRM and SSME (Space Shuttle main engine) performance characteristics.