The coupling and interactions between ship motion and inner-tank sloshing are investigated by a time-domain simulation scheme. For the time-domain simulation, the hydrodynamic coefficients and wave forces are obtained by a potential-thoery-based three-dimensional (3D) diffraction/radiation panel program in frequency domain. Then, the corresponding simulations of motions in time domain are carried out using convolution integral. The liquid sloshing in a tank is simulated in time domain by a Navier-Stokes solver. A finite difference method with SURF scheme is applied for the direct simulation of liquid sloshing. The computed sloshing force and moment are then applied as external excitations to the ship motion. The calculated ship motion is in turn inputted as the excitation for liquid sloshing, which is repeated for the ensuing time steps. For comparison, we independently developed a coupling scheme in the frequency domain using a sloshing code based on the linear potential theory. The hydrodynamic coefficients of the inner tanks are also obtained by a 3D panel program. The developed schemes are applied to a barge-type FPSO ( Floating Production and Offloading Vessel)(hull equipped with two partially filled tanks). The time-domain simulation results show similar trend when compared with MARIN's experimental results. The most pronounced coupling effects are the shift or split of peak-motion frequencies. It is also found that the pattern of coupling effects between vessel motion and liquid sloshing appreciably changes with filling level. The independent frequency-domain coupled analysis also shows the observed phenomena.


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    Titel :

    The effects of LNG-tank sloshing on the global motions of LNG carriers


    Weitere Titelangaben:

    Der Einfluss des des Flüssigkeitsschwappens in einem Flüssiggastank auf die Gesamtbewegungen von Flüssiggastankschiffen


    Beteiligte:
    Lee, S.J. (Autor:in) / Kim, M.H. (Autor:in) / Lee, D.H. (Autor:in) / Kim, J.W. (Autor:in) / Kim, Y.H. (Autor:in)

    Erschienen in:

    Ocean Engineering ; 34 , 1 ; 10-20


    Erscheinungsdatum :

    2007


    Format / Umfang :

    11 Seiten, 11 Quellen




    Medientyp :

    Aufsatz (Zeitschrift)


    Format :

    Print


    Sprache :

    Englisch




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