Stochastic Discrete Equation Method (sDEM) for two-phase flows

Stochastic Discrete Equation Method (sDEM) for two-phase flows

A new scheme for the numerical approximation of a five-equation model taking into account Uncertainty Quantification (UQ) is presented. In particular, the Discrete Equation Method (DEM) for the discretization of the five-equation model is modified for including a formulation based on the adaptive Se...

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Veröffentlicht in:Journal of computational physics 2015-10, Vol.299, p.281-306
Hauptverfasser: Abgrall, R., Congedo, P.M., Geraci, G., Rodio, M.G.
Format: Artikel
Sprache:eng
Schlagworte:
Adaptive Semi-Intrusive scheme (aSI)
Approximation
CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS
COMPRESSIBLE FLOW
Computational efficiency
CONDENSATION PARTICLE COUNTERS
CONVERGENCE
Discrete Equation Method (DEM)
Discretization
EFFICIENCY
Mathematical analysis
MATHEMATICAL METHODS AND COMPUTING
Mathematical models
Multiresolution (MR)
STOCHASTIC PROCESSES
Stochasticity
THERMODYNAMIC PROPERTIES
Two-phase compressible flows
TWO-PHASE FLOW
Uncertainty
Uncertainty Quantification (UQ)
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Beschreibung
Zusammenfassung:A new scheme for the numerical approximation of a five-equation model taking into account Uncertainty Quantification (UQ) is presented. In particular, the Discrete Equation Method (DEM) for the discretization of the five-equation model is modified for including a formulation based on the adaptive Semi-Intrusive (aSI) scheme, thus yielding a new intrusive scheme (sDEM) for simulating stochastic two-phase flows. Some reference test-cases are performed in order to demonstrate the convergence properties and the efficiency of the overall scheme. The propagation of initial conditions uncertainties is evaluated in terms of mean and variance of several thermodynamic properties of the two phases.
ISSN:0021-9991
1090-2716
DOI:10.1016/j.jcp.2015.06.013