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Numerical solution of 3D ow
dc.creatorKyncl, Martin
dc.date.accessioned2021-05-19T16:29:17Z
dc.date.available2021-05-19T16:29:17Z
dc.date.issued2006
dc.identifier.urihttp://hdl.handle.net/20.500.11956/3194
dc.description.abstractNazev prace-: Numericke fesem tfirozrnorneho proucleni Autor: Martin Kyncl Katcdra: Katedra numericke iiiatcinatiky Vedouci diplomove prace: Doc. RNDr. Jifi Felcman, CSc. e-mail vedouciho: felcman(G>karlm.inff.cuni.c/ Abstrakt: Prace se zabyva numorickym modelovanim nevazkeho a vazkeho stlacitelneho proudeni plynu ve 3D. Pou/iLa mutoda fes(Mif jn zalo2cna na ro/lo/rni systemu, kterym jc proudoni popsano, na nevazkou a ciste vaxkou cast. V praci json uvedeny numericke vyskulky, ktcre uka/uji pou/Jtelnost navrzene metody. Klicova slova: stlacitelne proudeni, Eulerovy rovnice, Navier-SLokesovy rov- nice, mctoda konecnycli objeinu, motoda konecnych prvku, Dolauriayova tri- angulace Title: Numerical solution of 3D flow Author: Martin Kyncl Department: Department, of Numerics Supervisor: Doc. RNDr. Jin Felcman, CSc. Supervisor's e-mail address: folemanQkarlin.mff.cuni.c/ Abstract: The paper is concerned with numerical modelling of inviscid as well as viscous gas flow in 3D. The method is based on upwind flux vector splitting finite volume scheme combined with finite elements. The geomet- rical data and the computational results for the three-dimensional flow arc presented. Keywords: compressible flow, Euler equations, Navicr-Stokes equations, fi- nite volume method, finite element method, Delaunay...en_US
dc.description.abstractNazev prace-: Numericke fesem tfirozrnorneho proucleni Autor: Martin Kyncl Katcdra: Katedra numericke iiiatcinatiky Vedouci diplomove prace: Doc. RNDr. Jifi Felcman, CSc. e-mail vedouciho: felcman(G>karlm.inff.cuni.c/ Abstrakt: Prace se zabyva numorickym modelovanim nevazkeho a vazkeho stlacitelneho proudeni plynu ve 3D. Pou/iLa mutoda fes(Mif jn zalo2cna na ro/lo/rni systemu, kterym jc proudoni popsano, na nevazkou a ciste vaxkou cast. V praci json uvedeny numericke vyskulky, ktcre uka/uji pou/Jtelnost navrzene metody. Klicova slova: stlacitelne proudeni, Eulerovy rovnice, Navier-SLokesovy rov- nice, mctoda konecnycli objeinu, motoda konecnych prvku, Dolauriayova tri- angulace Title: Numerical solution of 3D flow Author: Martin Kyncl Department: Department, of Numerics Supervisor: Doc. RNDr. Jin Felcman, CSc. Supervisor's e-mail address: folemanQkarlin.mff.cuni.c/ Abstract: The paper is concerned with numerical modelling of inviscid as well as viscous gas flow in 3D. The method is based on upwind flux vector splitting finite volume scheme combined with finite elements. The geomet- rical data and the computational results for the three-dimensional flow arc presented. Keywords: compressible flow, Euler equations, Navicr-Stokes equations, fi- nite volume method, finite element method, Delaunay...cs_CZ
dc.languageČeštinacs_CZ
dc.language.isocs_CZ
dc.publisherUniverzita Karlova, Matematicko-fyzikální fakultacs_CZ
dc.titleNumerické řešení třírozměrného prouděnícs_CZ
dc.typerigorózní prácecs_CZ
dcterms.created2006
dcterms.dateAccepted2006-02-28
dc.description.departmentDepartment of Numerical Mathematicsen_US
dc.description.departmentKatedra numerické matematikycs_CZ
dc.description.facultyFaculty of Mathematics and Physicsen_US
dc.description.facultyMatematicko-fyzikální fakultacs_CZ
dc.identifier.repId43933
dc.title.translatedNumerical solution of 3D owen_US
dc.identifier.aleph001559814
thesis.degree.nameRNDr.
thesis.degree.levelrigorózní řízenícs_CZ
thesis.degree.disciplineComputational mathematicsen_US
thesis.degree.disciplineVýpočtová matematikacs_CZ
thesis.degree.programMathematicsen_US
thesis.degree.programMatematikacs_CZ
uk.thesis.typerigorózní prácecs_CZ
uk.taxonomy.organization-csMatematicko-fyzikální fakulta::Katedra numerické matematikycs_CZ
uk.taxonomy.organization-enFaculty of Mathematics and Physics::Department of Numerical Mathematicsen_US
uk.faculty-name.csMatematicko-fyzikální fakultacs_CZ
uk.faculty-name.enFaculty of Mathematics and Physicsen_US
uk.faculty-abbr.csMFFcs_CZ
uk.degree-discipline.csVýpočtová matematikacs_CZ
uk.degree-discipline.enComputational mathematicsen_US
uk.degree-program.csMatematikacs_CZ
uk.degree-program.enMathematicsen_US
thesis.grade.csUznánocs_CZ
thesis.grade.enRecognizeden_US
uk.abstract.csNazev prace-: Numericke fesem tfirozrnorneho proucleni Autor: Martin Kyncl Katcdra: Katedra numericke iiiatcinatiky Vedouci diplomove prace: Doc. RNDr. Jifi Felcman, CSc. e-mail vedouciho: felcman(G>karlm.inff.cuni.c/ Abstrakt: Prace se zabyva numorickym modelovanim nevazkeho a vazkeho stlacitelneho proudeni plynu ve 3D. Pou/iLa mutoda fes(Mif jn zalo2cna na ro/lo/rni systemu, kterym jc proudoni popsano, na nevazkou a ciste vaxkou cast. V praci json uvedeny numericke vyskulky, ktcre uka/uji pou/Jtelnost navrzene metody. Klicova slova: stlacitelne proudeni, Eulerovy rovnice, Navier-SLokesovy rov- nice, mctoda konecnycli objeinu, motoda konecnych prvku, Dolauriayova tri- angulace Title: Numerical solution of 3D flow Author: Martin Kyncl Department: Department, of Numerics Supervisor: Doc. RNDr. Jin Felcman, CSc. Supervisor's e-mail address: folemanQkarlin.mff.cuni.c/ Abstract: The paper is concerned with numerical modelling of inviscid as well as viscous gas flow in 3D. The method is based on upwind flux vector splitting finite volume scheme combined with finite elements. The geomet- rical data and the computational results for the three-dimensional flow arc presented. Keywords: compressible flow, Euler equations, Navicr-Stokes equations, fi- nite volume method, finite element method, Delaunay...cs_CZ
uk.abstract.enNazev prace-: Numericke fesem tfirozrnorneho proucleni Autor: Martin Kyncl Katcdra: Katedra numericke iiiatcinatiky Vedouci diplomove prace: Doc. RNDr. Jifi Felcman, CSc. e-mail vedouciho: felcman(G>karlm.inff.cuni.c/ Abstrakt: Prace se zabyva numorickym modelovanim nevazkeho a vazkeho stlacitelneho proudeni plynu ve 3D. Pou/iLa mutoda fes(Mif jn zalo2cna na ro/lo/rni systemu, kterym jc proudoni popsano, na nevazkou a ciste vaxkou cast. V praci json uvedeny numericke vyskulky, ktcre uka/uji pou/Jtelnost navrzene metody. Klicova slova: stlacitelne proudeni, Eulerovy rovnice, Navier-SLokesovy rov- nice, mctoda konecnycli objeinu, motoda konecnych prvku, Dolauriayova tri- angulace Title: Numerical solution of 3D flow Author: Martin Kyncl Department: Department, of Numerics Supervisor: Doc. RNDr. Jin Felcman, CSc. Supervisor's e-mail address: folemanQkarlin.mff.cuni.c/ Abstract: The paper is concerned with numerical modelling of inviscid as well as viscous gas flow in 3D. The method is based on upwind flux vector splitting finite volume scheme combined with finite elements. The geomet- rical data and the computational results for the three-dimensional flow arc presented. Keywords: compressible flow, Euler equations, Navicr-Stokes equations, fi- nite volume method, finite element method, Delaunay...en_US
uk.file-availabilityV
uk.grantorUniverzita Karlova, Matematicko-fyzikální fakulta, Katedra numerické matematikycs_CZ
thesis.grade.codeU
uk.publication-placePrahacs_CZ
uk.thesis.defenceStatusU


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