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The performance of geometric conservation-based algorithms for incompressible multifluid flow

Show simple item record Moukalled F. Darwish M.
dc.contributor.editor 2004 2017-10-04T11:15:52Z 2017-10-04T11:15:52Z 2004
dc.identifier 10.1080/10407790490268841
dc.identifier.issn 10407790
dc.description.abstract This article deals with the implementation and testing of seven segregated pressure-based algorithms for the prediction of incompressible multifluid flow. These algorithms belong to the geometric conservation-based algorithm (GCBA) group, in which the pressure-correction equation is derived from the constraint on volume fractions (i.e., the sum of volume fractions equals 1). The pressure-correction schemes in these algorithms are based on SIMPLE, SIMPLEC, SIMPLEX, SIMPLEM, SIMPLEST, PISO, and PRIME. The performance and accuracy of these algorithms are assessed by solving eight one-dimensional two-phase flow problems and comparing results with published data. The effects of grid size on convergence characteristics are analyzed by solving each problem over different grid sizes. Results clearly demonstrate the capability of all GCBA algorithms to predict a wide range of multifluid flow situations. Based on the convergence history plots and CPU times obtained for the problems solved, the GCBA can be divided into two groups, with the one composed of SIMPLEST and PRIME being generally less efficient than the second group, to which the remaining algorithms belong.
dc.format.extent Pages: (343-368)
dc.language English
dc.publisher PHILADELPHIA
dc.relation.ispartof Publication Name: Numerical Heat Transfer, Part B: Fundamentals; Publication Year: 2004; Volume: 45; no. 4; Pages: (343-368);
dc.source Scopus
dc.title The performance of geometric conservation-based algorithms for incompressible multifluid flow
dc.type Article
dc.contributor.affiliation Moukalled, F., American University of Beirut, Fac. of Engineering and Architecture, Mechanical Engineering Department, Riad El Solh, Beirut, Lebanon, American University of Beirut, Mechanical Engineering Department, P.O. Box 11-0236, Riad El Solh, Beirut 1107 2020, Lebanon
dc.contributor.affiliation Darwish, M., American University of Beirut, Fac. of Engineering and Architecture, Mechanical Engineering Department, Riad El Solh, Beirut, Lebanon
dc.contributor.authorAddress Moukalled, F.; American University of Beirut, Mechanical Engineering Department, P.O. Box 11-0236, Riad El Solh, Beirut 1107 2020, Lebanon; email:
dc.contributor.authorCorporate University: American University of Beirut; Faculty: Faculty of Engineering and Architecture; Department: Mechanical Engineering;
dc.contributor.authorDepartment Mechanical Engineering
dc.contributor.faculty Faculty of Engineering and Architecture
dc.contributor.authorInitials Moukalled, F
dc.contributor.authorInitials Darwish, M
dc.contributor.authorReprintAddress Moukalled, F (reprint author), Amer Univ Beirut, Dept Mech Engn, Fac Engn and Architecture, POB 11-0236,Riad El Solh, Beirut 1107 2020, Lebanon.
dc.contributor.authorUniversity American University of Beirut
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dc.description.citedCount 6
dc.description.citedTotWOSCount 7
dc.description.citedWOSCount 7
dc.format.extentCount 26
dc.identifier.coden NHBFE
dc.identifier.scopusID 1942536577
dc.publisher.address 325 CHESTNUT ST, SUITE 800, PHILADELPHIA, PA 19106 USA
dc.relation.ispartOfISOAbbr Numer Heat Tranf. B-Fundam.
dc.relation.ispartOfIssue 4
dc.relation.ispartofPubTitle Numerical Heat Transfer, Part B: Fundamentals
dc.relation.ispartofPubTitleAbbr Numer Heat Transfer Part B Fundam
dc.relation.ispartOfVolume 45
dc.source.ID WOS:000220663500003
dc.type.publication Journal
dc.subject.otherIndex Algorithms
dc.subject.otherIndex Computational fluid dynamics
dc.subject.otherIndex Conservation
dc.subject.otherIndex Mathematical operators
dc.subject.otherIndex Problem solving
dc.subject.otherIndex Vectors
dc.subject.otherIndex Volume fraction
dc.subject.otherIndex Conservation-based algorithms
dc.subject.otherIndex Multifluid flow
dc.subject.otherIndex Incompressible flow
dc.subject.otherKeywordPlus FINITE-VOLUME METHOD
dc.subject.otherKeywordPlus 2-PHASE FLOW
dc.subject.otherKeywordPlus FLUID-FLOW
dc.subject.otherKeywordPlus MASS
dc.subject.otherKeywordPlus FORMULATION
dc.subject.otherKeywordPlus IMPELLERS
dc.subject.otherKeywordPlus TRANSPORT
dc.subject.otherKeywordPlus SYSTEMS
dc.subject.otherKeywordPlus SPEEDS
dc.subject.otherKeywordPlus SPRAYS
dc.subject.otherWOS Thermodynamics
dc.subject.otherWOS Mechanics

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