Modeling of an impulse-absorbing pneumatic cylinder

The neutron density in a non-capturing medium surrounding an imperfectly absorbing, non-scattering cylinder is calculated by the spherical harmonics method in the P,-approximation. The linear extrapolation length of the asymptotic neutron density is then deduced from this for various absorbing power

Characteristics of the developing recirculation region behind a tapered trapezoidal cylinder and its interaction with the separating shear layer from the leading edges were studied numerically for an impulsively started laminar flow. An unsteady stream function -vorticity formulation was used. The R

We present an adaptive wavelet method to integrate the velocityvorticity formulation of the two-dimensional Navier-Stokes equations coupled with a penalisation technique to handle efficiently solid boundaries of arbitrary shape. We demonstrate the validity of this method, called coherent vortex simu

The design of an active controller for a vibration isolation table employing pneumatic vibration isolators requires an accurate mathematical model of the isolator. An experimental investigation of the validity of available models has been performed and indicates significant errors between predicted