2015
DOI: 10.1002/fld.4051
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Application of pressure‐ and density‐based methods for different flow speeds

Abstract: SUMMARYIn this paper, pressure-based and density-based methods are studied at different flow speeds. The methods are intended for steady flows, and the goal is to find as general an approach as possible to cover different Mach number regimes. The solution methods are based on a finite-volume approach. Various forms of inviscid fluxes are applied and connected with either a pressure-based or density-based implicit solution. For this purpose, a new pressure-correction method is developed that can be applied for … Show more

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Cited by 28 publications
(13 citation statements)
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“…In Equation 6, a Rhie-Chow-type damping term is added via the convective velocityū. Instead of the commonly used scaling, the term is scaled using an artificial sound speed [40]. Pressure differences are applied and the flux terms are written in terms of the void fraction.…”
Section: Finite-volume Formmentioning
confidence: 99%
See 1 more Smart Citation
“…In Equation 6, a Rhie-Chow-type damping term is added via the convective velocityū. Instead of the commonly used scaling, the term is scaled using an artificial sound speed [40]. Pressure differences are applied and the flux terms are written in terms of the void fraction.…”
Section: Finite-volume Formmentioning
confidence: 99%
“…A pressure correction equation was derived from the continuity Equation (1) linked with the linearized momentum equation. The method is based on the corresponding algorithm for a single-phase flow [40], and is described in detail in Ref. [25].…”
Section: Solution Algorithmmentioning
confidence: 99%
“…A detailed description of the numerical method including discretization of the governing equations, solution algorithm, boundary conditions, etc. are described by Sánchez-Caja et al [28] and by Miettinen and Siikonen [29]. Several turbulence models are implemented in FINFLO.…”
Section: Viscous Modelmentioning
confidence: 99%
“…The flow model applied is based on a homogeneous mixture flow assumption, and a compressible form of the Navier-Stokes equations is solved [9,10]. The continuity and momentum equations are solved for the mixture, and the energy equations are included to predict the correct acoustic signal speeds.…”
Section: Governing Equationsmentioning
confidence: 99%
“…A pressure correction equation was derived from the continuity equation, Equation 1, linked with the linearized momentum equation. The velocity-pressure coupling is based on the corresponding algorithm for a single-phase flow [9], and is described in more detail in [10,25].…”
Section: Solution Algorithmmentioning
confidence: 99%