An extension of the substitution principle to certain unsteady gas flows

The M u n k -P r i m substitution principle is extended to the case of the diabatic flow of a gas. F r o m this principle, a canonical system ol equations governing the flow is derived. Looking at the inverse problem, special forms of the heat addition function which simplify the equations are eonsi

## Abstract This study investigates a new energy relaxation method designed to capture the dynamics of unsteady, viscous, real gas flows governed by the compressible Navier–Stokes equations. We focus on real gas models accounting for inelastic molecular collisions and yielding temperature‐dependent

A generalisatipn of Onsager'e reciprocal relations has been proved by phenomenological methods. It is pointed out that Gyarmati's variational principle is valid in case of nonlinear constitutive equations, too. Eine Ausdehnung des Leit-Prinzips der dissipativen Vorgiinge auf nichtlineare Material-Ci

Flow of an electroconducting barotropic inviscid fluid in an external magnetic field Selescu's vectors, space curves and zero-work surfaces The MHD generator with liquid a b s t r a c t This work studies and clarifies some local phenomena in fluid mechanics as well as in magneto-fluid dynamics. A m