Anton Esmail-Yakas scite author profile

This work presents a method of exactly and efficiently evaluating integrals of compactly supported (and otherwise) polynomial radial kernels near piecewise-planar boundaries. The technique is motivated by and has an immediate application in the smoothed-particle hydrodynamics method employing the semi-analytical boundary formulation. The current implementation is exact and fully general, avoiding any need for symbolic or numerical integration which previous implementations rely on. A detailed derivation and three compact implementations are provided and the latter can be easily modified to fit new and existing simulation codes. Applications and good performance are demonstrated on a number of test problems, where the semi-analytical boundary method can simulate complex boundaries using roughly half the boundary particles required in a ghost particle boundary method.

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Semi‐analytical treatment of spherical solids in smoothed‐particle hydrodynamics fluid simulations

Kostorz

Esmail-Yakas

2020

Numerical Meth Engineering

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A method for modeling mobile spherical solids in Smoothed Particle Hydrodynamics simulations utilizing the semi-analytical boundary formulation is given. The technique relies on evaluating individual contributions from ideally spherical bodies to the normalization factor and its gradient. A derivation is provided in both two and three dimensions (3D) and a close-form solution is given for an arbitrary polynomial kernel function in 3D. The method is validated and implemented in an Smoothed-Particle Hydrodynamics-Discrete Element Method code to evaluate the solid fraction and results are compared to the previous standard.

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Anton Esmail-Yakas

A semi-analytical boundary integral method for radial functions with application to Smoothed Particle Hydrodynamics

Semi‐analytical smoothed‐particle hydrodynamics correction factors for polynomial kernels and piecewise‐planar boundaries

Semi‐analytical treatment of spherical solids in smoothed‐particle hydrodynamics fluid simulations

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