Prediction of energy dissipation in violent 3D sloshing flows by Smoothed Particle Hydrodynamics

The present work aims to investigate the use of fuel sloshing to reduce the design loads on aircraft wings. These are highly flexible structures, that can deform significantlyunder certain loading. Wings house the fuel tanks, and generally carry an amount of fuel comparable in weight to that of their structural components. In the present research theSPH model is adopted to investigate the damping effect of fuel sloshing on the dynamics of flexible wing-like structures. This represents a quite challenging task for SPH and more ingeneral, for CFD tools, being the fuel tank under study subjected to vertical accelerations as high as 10g. The resulting flow is extremely complex due to the highly turbulent flow,the violent impacts and intense fragmentation of the air-liquid interface. In previous work by [1] the experiments in [2] are reproduced in the two-dimensional numerical simulationscomparing the flow evolution and the obtained forces and dissipated energy. In the present work three-dimensional simulations are considered and 3D effects on the energy dissipationmechanisms are investigated.