Tradeoffs between electric propulsion system mass ratio and transfer time from LEO to GEO were conducted parametrically for various thruster efficiency, specific impulse, and other propulsion parameters. A computer model was developed for performing orbit transfer calculations which included the effects of aerodynamic drag, radiation degradation, and occultation. The tradeoff results showed that thruster technology areas for integrated propulsion should be directed towards improving primary thruster efficiency in the range from 1500 to 2500 seconds, and be continued towards reducing specific mass. Comparison of auxiliary propulsion systems showed large total propellant mass savings with integrated electric auxiliary propulsion. Stationkeeping is the most demanding on orbit propulsion requirement. At area densities above 0.5 sq m/kg, East-West stationkeeping requirements from solar pressure exceed North-South stationkeeping requirements from gravitational forces. A solar array pointing strategy was developed to minimize the effects of atmospheric drag at low altitude, enabling electric propulsion to initiate orbit transfer at Shuttle's maximum cargo carrying altitude. Gravity gradient torques are used during ascent to sustain the spacecraft roll motion required for optimum solar array illumination. A near optimum cover glass thickness of 6 mils was established for LEO to GEO transfer.


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    Title :

    Integrated Propulsion for Near-Earth Space Missions. Volume 1: Executive Summary


    Contributors:
    C. L. Dailey (author) / H. F. Meissinger (author) / R. H. Lovberg (author) / S. Zafran (author)

    Publication date :

    1981


    Size :

    27 pages


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English




    Integrated propulsion for near-Earth space missions. Volume 1: Executive summary

    Dailey, C. L. / Meissinger, H. F. / Lovberg, R. H. et al. | NTRS | 1981


    Integrated Propulsion for Near-Earth Space Missions. Volume 1: Executive Summary

    C. L. Dailey / H. F. Meissinger / R. H. Lovberg et al. | NTIS | 1981


    Integrated Propulsion for Near-Earth Space Missions. Volume 2: Technical

    C. L. Dailey / H. F. Meissinger / R. H. Lovberg et al. | NTIS | 1981


    Integrated Propulsion for Near-Earth Space Missions. Volume 2: Technical

    C. L. Dailey / H. F. Meissinger / R. H. Lovberg et al. | NTIS | 1981


    Integrated propulsion for near-Earth space missions. Volume 2: Technical

    Dailey, C. L. / Meissinger, H. F. / Lovberg, R. H. et al. | NTRS | 1981