SLOSHING IN A T-BAFFLED RECTANGULAR STORAGE TANK 33
                                               NUMERICAL STUDY FOR 2–D PROBLEMS

Godderidge, B., Tan, M., Earl, C., Turnock, S., 2006b. Multiphase CFD modelling of a
         lateralsloshing tank. In: Proceedings of the Ninth Numerical Towing Tank Symposium,
         Le Croisic.

Godderidge, B., Tan, M., Earl, C., Turnock, S., 2007. Boundary layer resolution for modeling of
         a sloshing liquid. In: Proceedings of the Seventeenth Annual Conference of the
         International Society of Offshore and Polar Engineers, 3, pp. 1905–1911.

Godderidge, B., Turnock, S., Tan, M., Earl, C., 2009a. An investigation of multiphase CFD
         modelling of a lateral sloshing tank, Computers and Fluids, 38, pp. 183–193.

Godderidge, B., Turnock, S., Earl, C., Tan, M., 2009b. The effect of fluid compressibility on
         the simulation of sloshing impacts, Ocean Engineering, 36, pp. 578–587.

Hirt, C.W., Nichols, B.D., 1981. Volume of fluid (VOF) method for the dynamics of free
         boundaries, Journal of Computational Physics, 39, pp. 201– 225.

Ibrahim, R.A., Pilipchuk, V.N., Ikeda, T., 2001. Recent Advances in Liquid Sloshing Dynamics,
         Applied Mechanical Review 54(2), pp. 133-199.

Kim, Y., 2001. Numerical Simulation of Sloshing Flows with Impact Load, Applied Ocean
         Research, 23, pp. 53-62.

Lee, D.H., Kim, M.H., Kwon, S.H., Kim, J.W., Lee, Y.B., 2007. A parametric sensitivity study
         on LNG tank sloshing loads by numerical simulations, Ocean Engineering, 34, 3–9.

Liu, D., Lin, P., 2009. A numerical study of three-dimensional liquid sloshing in tanks, Ocean
         Engineering, 36, pp. 202–212.

Pal, N.C., Bhattacharyya, S.K., Sinha, P.K., 2002. Non-Linear Coupled Slosh Dynamics of
         Liquid-Filled Laminated Composite Containers: a Two Dimensional Finite Element
         Approach, Journal of Sound and Vibration, 261(1), pp. 729-49.

Pal, P., Bhattacharyya, S.K., 2010. Sloshing in partially filled liquid containers – Numerical and
         experimental study for 2-D problems, Journal of Sound and Vibration, 329, pp. 4466-
         4485.

Panigrahy, P.K., Saha, U.K., Maity, D., 2009. Experimental studies on sloshing behavior due to
         horizontal movement of liquids in baffled tanks, Ocean Engineering, 36(3-4), pp. 213-
         222.

Sames, P.C., Marcouly, D., Schellin, E.T., 2002. Sloshing in rectangular and cylindrical tanks,
         Journal of Ship Research, 46(3), pp. 186-200.

Younes, M.F., Younes, Y.K., El-Madah, M., Ibrahim, I.M., El-Dannanh, E.H., 2007. An
         experimental investigation of hydrodynamic damping due to vertical baffle
         arrangements in a rectangular tank, Proceedings of the Institution of Mechanical
         Engineers, Part M: Journal of Engineering for the Maritime Environment, 221, pp. 115-
         123

                                                                                          Sayı 1, 2014 GiDB|DERGi