Abstract
A primary method of launching future spacecraft will be the Space Transportation System (STS). Studies have identified minimum length stages capable of lifting heavy and deployed payloads from the STS low-Earth orbit to geosynchronous Earth orbit using storage or cryogenic propulsion systems. Aerojet TechSystems is presently developing two engines suitable for these stages, a storable engine in the few thousand pound thrust range, and a cryogenic engine with a thrust of only a few hundred pounds. The stringent life and performance requirements of these engines offer new technical challenges which can only be met through the consequent employment of novel materials and processes for the storable engine and through innovative design concepts for the cryogenic engine. The storable engine breadboard testing has been accomplished, and the flightweight development program will be complete by the end of this decade. A qualified engine is anticipated for service in the early 1990 time frame. The low thrust cryogenic engine lags this storable engine by approximately three years in development and availability. This paper discusses the technical issues, their solutions, and the development status of these two engines.
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