National Aeronautics and Space Administration, Lyndon B. Johnson Space Center, Houston, TX 77058, U.S.A.
Abstract:
Interim results of a study on use of the tethered propellant resupply technique on the space station are summarized. The acceleration produced by a gravity-gradient-stabilized tether can predictably settle propellants and thereby simplify propellant resupply of vehicles when compared to zero-g techniques. Separation of the gas and liquid phases by settling enables performance of liquid acquisition and gas venting without special hardware in the propellant tanks and without special procedures. The primary requirement for propellant transfer is control of liquid sloshing to maintain liquid over the supply tank outlet and gas over the receiver tank vent. Ultimately, the decision to use this technique on the space station may depend upon the capability to adjust depot logistic operations to a tether.