Smooth Particle Hydrodynamics
Smooth Particle Hydrodynamics (SPH) is a meshless numerical method based on interpolation theory. It allows any function to be expressed in terms of its values at a set of disordered point's so-called particles.
SPH is not based on the particle physics theory. The conservation laws of continuum dynamics, in the form of partial differential equations, are transformed into integral equations through the use of kernel approximation. A comprehensive state-of-the-art of the method. 1 2 3 These techniques were initially developed in astrophysics. 4 5 During the 1991-1995 periods, SPH has become widely recognized and has been used extensively for fluid and solid mechanics type of applications. SPH method is implemented in Radioss in Lagrangian approach whereby the motion of a discrete number of particles is followed in time.
SPH is a complementary approach with respect to ALE method. When the ALE mesh is too distorted to handle good results (for example in the case of vortex creation), SPH method allows getting a sufficiently accurate solution.