Solar Electric Propulsion (SEP) when used for station keeping and final orbit insertion has been shown to increase a geostationary satellite's payload when launched by existing expendable launch vehicles. In the case of reusable launch vehicles or expendable launch vehicles where an upper stage is an expensive option, this methodology can be modified by using the existing on-board apogee chemical system to perform a perigee burn and then letting the electric propulsion system complete the transfer to geostationary orbit. The elimination of upper stages using on-board chemical and electric propulsion systems was thus examined for GEO spacecraft. Launch vehicle step-down from an Atlas IIAR to a Delta 7920 (no upper stage) was achieved using expanded on-board chemical tanks, 40 kW payload power for electric propulsion, and a 60 day elliptical to GEO SEP orbit insertion. Optimal combined chemical and electric trajectories were found using SEPSPOT. While Hall and ion thrusters provided launch vehicle step-down and even more payload for longer insertion times, NH3 arcjets had insufficient performance to allow launch vehicle step-down. Degradation levels were only 5% to 7% for launch step-down cases using advanced solar arrays. Results were parameterized to allow comparisons for future reusable launch vehicles. Results showed that for an 8 W/kg initial power/launch mass power density spacecraft, 50% to 100% more payload can be launched using this method.


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    Title :

    Advanced Electric Propulsion for RLV Launched Geosynchronous Spacecraft


    Contributors:

    Conference:

    26th International Electric Propulsion Conference ; 1999 ; Kitakyushu, Japan


    Publication date :

    1999-12-01


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English




    Advanced Electric Propulsion for RLV Launched Geosynchronous Spacecraft

    Oleson, S. R. / Japan Society for Aeronautical and Space Science | British Library Conference Proceedings | 1999