2013
DOI: 10.1504/ijmatei.2013.054391
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Splitting methods for relaxation two-phase flow models

Abstract: A model for two-phase pipeline flow is presented, with evaporation and condensation modelled using a relaxation source term based on statistical rate theory. The model is solved numerically using a Godunov splitting scheme, making it possible to solve the hyperbolic fluid-mechanic equation system and the relaxation term separately. The hyperbolic equation system is solved using the multi-stage (MUSTA) finite volume scheme. The stiff relaxation term is solved using two approaches: One based on the Backward Eule… Show more

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Cited by 1 publication
(1 citation statement)
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“…The SG EOS parameters are determined by shock wave Hugoniot curves [33][34][35]. This EOS is often used as a reasonable approximation for both liquids and gases under high pressure conditions [12,13,17,21,36,37]. The EOS allows the determination of the speed of sound of each single phase…”
Section: Two-phase Flow Modelmentioning
confidence: 99%
“…The SG EOS parameters are determined by shock wave Hugoniot curves [33][34][35]. This EOS is often used as a reasonable approximation for both liquids and gases under high pressure conditions [12,13,17,21,36,37]. The EOS allows the determination of the speed of sound of each single phase…”
Section: Two-phase Flow Modelmentioning
confidence: 99%