Title of article
1D Steady-State Numerical Results for Critical Two- Phase Flow – Critical Location and Pressure Profiles
Author/Authors
Martel, S Research Institut of Hydro-Quebec, Shawinigan, Quebec, Canada , Dostie, M Research Institut of Hydro-Quebec, Shawinigan, Quebec, Canada , Mercadier, Y University of Sherbrooke, Sherbrooke, Quebec, Canada
Pages
9
From page
197
To page
205
Abstract
The use of two-phase ejectors to improve refrigeration systems encounters today a great interest. However,
modeling of such devices with low void fraction at the entrance of the motive nozzle, presents significant
challenges. The choking conditions and the discontinuities appearing in a two-phase flow in a nozzle are not
well documented and some works are needed to better anticipated flow behavior under these conditions. This
paper presents a steady state two-phase flow model including new choking criterions for one-dimensional
conservative systems. The present model is a two-fluid, one pressure model with thermal equilibrium and
mechanical disequilibrium. As a first step, this model is used to study the flow in the motive nozzle of an
ejector.
Keywords
Two phase flow , Nozzle flow , Critical location , Critical flow
Journal title
Astroparticle Physics
Serial Year
2016
Record number
2466578
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