A direct simulation Monte-Carlo method for cluster coagulation

The paper presents the development of a hybrid Monte Carlo (MC) method for the simulation of the simultaneous coagulation and phase segregation of an immiscible two-component binary aerosol. The model is intended to qualitatively model our prior studies of the synthesis of mixed metal oxides for whi

The accuracy and computational cost of a direct simulation Monte Carlo simulation are directly related to the number of particles per cell. Optimal computational efficiency is achieved when the minimum number of particles needed for accurate resolution is used in each cell. Particle count is shown t

Many important classes of problems in materials science and biotechnology require the solution of the Laplace or Poisson equation in disordered two-phase domains in which the phase interface is extensive and convoluted. Green's function first-passage (GFFP) methods solve such problems efficiently by

The statistical error associated with the direct simulation Monte Carlo technique is studied when it is applied to nonequilibrium cle method and a continuum approach. It is well known hypersonic and nozzle flows. A root mean square (rms) error is that the Monte Carlo method is physically accurate bu