Super cooling the cryogenic liquid propellant in a vehicle propellant tank densities the propellant allowing the vehicle propellant tank to carry more fuel in the same volume tank while lowering the vapor pressure and thus the tank operating pressure. Lowering the tank operating pressure reduces the stress and therefore allows the walls of the tank to be thinner. Both the smaller tank volume and thinner tank wall results in an overall smaller and lighter vehicle with increased payload capability. The cryogenic propellant can be supercooled well below the normal boiling point temperature level by transporting the liquid propellant from the vehicle tanks to a ground based cooling unit which utilizes a combination of heat exchanger and compressor. The compressor lowers the coolant fluid bath pressure resulting in a low temperature boiling liquid which is subsequently used to cool the recirculating liquid. The cooled propellant is then returned to the vehicle propellant tank. In addition to reducing the vehicle size and weight the invention also allows location of the vent valve on the ground, elimination of on-board recirculation pumps or bleed systems, smaller and lighter engine pumps and valves, lighter and more stable ullage gas, and significant reduction in tank fill operation. All of these mentioned attributes provide lower vehicle weight and cost.


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    Title :

    Liquid propellant densification


    Contributors:

    Publication date :

    1997-07-08


    Type of media :

    Miscellaneous


    Type of material :

    No indication


    Language :

    English




    Cryogenic Propellant Densification Study

    Ewart, R. O. / Dergance, R. H. | NTRS | 1978


    Cryogenic Propellant Densification Study

    R. O. Ewart / R. H. Dergance | NTIS | 1978


    Recent Advancements in Propellant Densification

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    Propellant Densification: The SSME Perspective

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    Recent Advancements in Propellant Densification

    McNelis, Nancy B. / Tomsik, Thomas M. | NTRS | 1998