A first integral of Navier-Stokes equations:thin film flow applications

【Author】

Markus Scholle;Philip H.Gaskell;Andre Haas;

【Abstract】

<正>As is well known,Bemoulli's equation is obtained as the first integral of Euler's equations in the absence of vorticity;in the case of non-vanishing vorticity,a first integral from Euler's equations is found using the so called Clebsch transformation for inviscid flows.By contrast and to date,a reneralisation of this procedure

【Keywords】

flow;As;well;work;In;A first integral of Navier-Stokes equations;

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