چکیده
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In this article, smoothed particle hydrodynamics method is applied in order to study the free surface flow generated by
two-dimensional planing flat plate. For this purpose, a two-dimensional smoothed particle hydrodynamics code is developed
and validated by the well-known dam breaking problem. Four trim angles and three different velocities are considered
to perform a parametric study to examine their physical effects. The obtained results from smoothed particle
hydrodynamics are compared against the corresponding Reynolds-averaged Navier Stokes solutions. It is observed that
at lower velocities, there exists a good agreement between the smoothed particle hydrodynamics and Reynolds-averaged
Navier Stokes solutions, while at higher velocities, some inconsistency is observed. A brief discussion is presented
to clarify the physical reasons behind the increase of the velocity and the height of the spray with the trim angle. Some
formulas have also been derived to examine the variation of the ratio between the final wetted length of the flat plate
and the initial wetted length at different velocities and trim angles.
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