Numerical modelling of solid particle motion using a new penalty method

This paper presents a numerical method for predicting the motion of a spherical bubble close to a rigid structure. The velocity potential in the fluid due to the motin of the bubble is represented by a source and a dipole located at the centroid of the bubble. This leads to a coupled system of diffe

## Abstract The FEM analysis of hyper elastic, elastomeric materials has been formulated and implemented for various material models (strain energy functions) over the years. More recently, the analysis of elastomeric materials has been attempted in the boundary element method. This has been achiev

particle density. This problem can hardly be solved efficiently by direct simulation methods in such cases, where A stochastic weighted particle method is applied to a model nonlinear kinetic equation. A detailed study of various numerical ap-the changes of the particle density are of several orders

Impurity transport in a scrape-off layer(SOL) of a toroidal device is analyzed based on a single particle motion using Monte Carlo procedures. A Langevin-type equation of motion is solved for an impurity particle. To follow long tracks of impurity particles, a guiding center model is adopted. The SO