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Parametric studies on sloshing in a three-dimensional prismatic tank with different water depths, excitation frequencies, and baffle heights by a Cartesian grid method

Jin Qiu, Jianjian Xin, Fulong Shi, Fan Shi

2021International Journal of Naval Architecture and Ocean Engineering18 citationsDOIOpen Access PDF

Abstract

This paper aims to numerically investigate violent sloshing in a partially filled three-dimensional (3D) prismatic tank with or without a baffle, further to clarify the suppressing performance of the baffle and the damping mechanism of sloshing. The numerical model is based on a Cartesian grid multiphase flow method, and it is well validated by nonlinear sloshing in a 3D rectangular tank with a vertical baffle. Then, sloshing in an unbaffled and baffled prismatic tank is parametrically studied. The effects of chamfered walls on the resonance frequency and the impact pressure are analyzed. The resonance frequencies for the baffled prismatic tank under different water depths and baffle heights are identified. Moreover, we investigated the effects of the baffle on the impact pressure and the free surface elevation. Further, the free surface elevation, pressure and vortex contours are analyzed to clarify the damping mechanism between the baffle and the fluid.

Topics & Concepts

BaffleSlosh dynamicsImpact pressureMechanicsFree surfaceParametric statisticsFlow (mathematics)Structural engineeringGeologyMaterials scienceEngineeringPhysicsMathematicsStatisticsChemical engineeringFluid Dynamics Simulations and InteractionsFluid Dynamics and Vibration AnalysisShip Hydrodynamics and Maneuverability
Parametric studies on sloshing in a three-dimensional prismatic tank with different water depths, excitation frequencies, and baffle heights by a Cartesian grid method | Litcius