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    Moving-Boundary Model of Cryogenic Fuel Loading, I: Two-Phase Flow in a Pipe

    Moving-Boundary Model of Cryogenic Fuel Loading, I: Two-Phase Flow in a Pipe


    A moving-boundary model of two-phase flow in a cross-country cryogenic fuel supply line has been developed. It is based on time-dependent one-dimensional ordinary differential equations that describe mass and energy conservation of the flowing cryogen that exchanges heat with the tubes’ walls. Momentum conservation is taken into consideration by relating the pressure drop across the boundaries of the control volumes with the corresponding inlet and outlet mass flow rates through the boundaries of these volumes. With a relatively small computational effort, compared to full-scale schemes, the model describes pressure and temperature variations together with the kinetics of vapor void fraction and of the interphase boundary motion in the different parts of the spatially distributed system. In this paper, special attention is given to the detailed study of the transient and steady-state two-phase cryogenic movement in a long horizontal pipe with different regimes of flow: with and without heat exchange between the tube walls and the cryogen, and between the walls and the environment; in the presence of local mass and heat leaks, and of sudden obstructions, etc. The convergence of the computational procedure with respect to the number of the control volumes is discussed.

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    Title :

    Moving-Boundary Model of Cryogenic Fuel Loading, I: Two-Phase Flow in a Pipe

    Contributors:
    Hafiychuk, V. (author) / Foygel, M. (author) / Ponizovskaya-Devine, E. (author) / Smelyanskiy, V. (author) / Watson, M. D. (author) / Brown, B. (author) / Goodrich, C. (author)
    Published in:

    Journal of Thermophysics and Heat Transfer ; 29 , 3 ; 533-544

    Publication date :

    2014-12-10

    Size :

    12 pages

    ISSN :

    0887-8722 , 1533-6808

    DOI :

    https://doi.org/10.2514/1.T4481

    Type of media :

    Article (Journal)

    Type of material :

    Electronic Resource

    Language :

    English

    Keywords :

    Cryogenic Fluids , Mass Flow Rate , Energy Conservation Equation , Calculated Heat Transfer Coefficients , Specific Enthalpy , Adiabatic Flow , Fuel Leak , Thermal Conduction , Friction Coefficient , Compressible Fluid

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