An approximate solution for non-steady flows in ducts with friction

This paper is concerned with rigid-walled ducts in which axial temperature gradients exist. An acoustic wave equation is derived (an independently specified source distribution is assumed to be present) and its solution is discussed. It is shown that an approximate analytical solution, valid at suff

A general approximate analytical solution is presented for transmission of plane sound waves in subsonic low Mach number ducts with axial ambient gradients and cross-sectional area variations. This is essentially a high frequency approximation and explicit criteria are presented for the estimation o

Recently, Lebon and Lambermont proposed a general variational principle for fluid mechanics, In this paper, the criterion is applied to steady and non-steady stagnation flows; the plane and the axisymmetrical cases are considered. By using Glansdorff-Prigogine self consistent method, approximate ana

The core flow approximation method has been used extensively in the past several years to model MHD flow at high Hartmann number and interaction parameter. This method assumes that inertial and viscous forces and the induced magnetic field are negligible, thus transforming the governing equations to