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Physical and numerical modeling of multidimensional liquid-vapor flows advanced two-fluid models, application to upwind finite volume methods; Modelisation physique et numerique d'ecoulements eau-vapeur multidimensionnels modeles bifluides avances, application de methodes de volumes finis decentres

Abstract

This report presents the work of thesis realized under the direction of Jean-Michel Ghidaglia (thesis director, ENS-Cachan) and of Anela Kumbaro (tutor, CEA) within the framework of the modeling of two-phase flows with OAP code. The report consists of two parts of unequal size: the first part concentrates on aspects related exclusively to two-phase flows, while the second one is devoted to the study of a numerical problem inherent to the resolution of two-phase flow systems, but whose action has a broader framework. (author)
Authors:
Publication Date:
Jul 01, 2005
Product Type:
Technical Report
Report Number:
CEA-R-6091
Resource Relation:
Other Information: 93 refs
Subject:
42 ENGINEERING; BENCHMARKS; BUBBLES; COMPUTERIZED SIMULATION; CONVECTION; EIGENVALUES; EIGENVECTORS; FINITE ELEMENT METHOD; FLOW MODELS; INTERFACES; MESH GENERATION; NOZZLES; O CODES; STEAM; TWO-PHASE FLOW; VOID FRACTION; WATER
OSTI ID:
20706611
Research Organizations:
CEA Saclay, Dept. Modelisation de Systemes et Structures, 91 - Gif sur Yvette (France)
Country of Origin:
France
Language:
English; French
Other Identifying Numbers:
TRN: FR0600260021816
Availability:
Available from INIS in electronic form
Submitting Site:
FRN
Size:
203 pages
Announcement Date:
May 01, 2006

Citation Formats

Seignole, V. Physical and numerical modeling of multidimensional liquid-vapor flows advanced two-fluid models, application to upwind finite volume methods; Modelisation physique et numerique d'ecoulements eau-vapeur multidimensionnels modeles bifluides avances, application de methodes de volumes finis decentres. France: N. p., 2005. Web.
Seignole, V. Physical and numerical modeling of multidimensional liquid-vapor flows advanced two-fluid models, application to upwind finite volume methods; Modelisation physique et numerique d'ecoulements eau-vapeur multidimensionnels modeles bifluides avances, application de methodes de volumes finis decentres. France.
Seignole, V. 2005. "Physical and numerical modeling of multidimensional liquid-vapor flows advanced two-fluid models, application to upwind finite volume methods; Modelisation physique et numerique d'ecoulements eau-vapeur multidimensionnels modeles bifluides avances, application de methodes de volumes finis decentres." France.
@misc{etde_20706611,
title = {Physical and numerical modeling of multidimensional liquid-vapor flows advanced two-fluid models, application to upwind finite volume methods; Modelisation physique et numerique d'ecoulements eau-vapeur multidimensionnels modeles bifluides avances, application de methodes de volumes finis decentres}
author = {Seignole, V}
abstractNote = {This report presents the work of thesis realized under the direction of Jean-Michel Ghidaglia (thesis director, ENS-Cachan) and of Anela Kumbaro (tutor, CEA) within the framework of the modeling of two-phase flows with OAP code. The report consists of two parts of unequal size: the first part concentrates on aspects related exclusively to two-phase flows, while the second one is devoted to the study of a numerical problem inherent to the resolution of two-phase flow systems, but whose action has a broader framework. (author)}
place = {France}
year = {2005}
month = {Jul}
}