Discrete simulation of fluid dynamics

LagrangeÕs and HamiltonÕs equations are used extensively in numerical modeling of rigid body dynamics and continuum solid dynamics problems. The use of energy methods in viscous compressible ¯ow problems has been by contrast rather limited, largely con®ned to the development of basic balance laws in

The theory and design of a special purpose stochastic computer for the high-speed simulation of Markov chains and random walks is described . Experimental results are presented for the transient and steady response of Markov systems and for fundamental studies of random walks . The paper concludes w

We propose using discrete dynamical systems to model non-Markovian processes. This implies a whole hierarchy of dynamical systems with dimensionality increasing proportional to the memory. Specific long-range memory effects are investigated for a quadratic, a cubic and a quartic map. Markovian proce

We present particle dynamics simulations for the response of magnetorheological (MR) fluids upon application of a magnetic field. The particles motion is considered to be governed by magnetic, hydrodynamic, and repulsive interactions. Fluid-particle interactions are accounted for via Stokes' drag wh

We present a non-equilibrium molecular dynamics simulation of 125 methane molecules using a variant of the isokinetic "sllod" algorithm. The shear viscosity, pressure and internal energy of methane in a dense, supercritical fluid state (temperature 285.7 K and mass density 0.288 g/cm3) are calculate