Computational fluid dynamics: principles and applications
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Amsterdam
Butterworth Heinemann
[2015]
|
| Ausgabe: | Third edition |
| Schlagworte: | |
| Online-Zugang: | FAW01 FLA01 TUM01 UBY01 URL des Erstveröffentlichers |
| Beschreibung: | Includes bibliographical references and index Front Cover; Computational Fluid Dynamics: Principles and Applications; Copyright; Contents; Acknowledgments; List of Symbols; Abbreviations; Chapter 1: Introduction; Chapter 2: Governing Equations; 2.1 The Flow and Its Mathematical Description; 2.1.1 Finite control volume; 2.2 Conservation Laws; 2.2.1 The continuity equation; 2.2.2 The momentum equation; 2.2.3 The energy equation; 2.3 Viscous Stresses; 2.4 Complete System of the Navier-Stokes Equations; 2.4.1 Formulation for a perfect gas; 2.4.2 Formulation for a real gas; 2.4.3 Simplifications to the Navier-Stokes equations Thin shear layer approximationParabolized Navier-Stokes equations; Euler equations; References; Chapter 3: Principles of Solution of the Governing Equations; 3.1 Spatial Discretization; 3.1.1 Finite-difference method; 3.1.2 Finite-volume method; 3.1.3 Finite-element method; 3.1.4 Other discretization methods; Spectral-element method; Lattice Boltzmann method; Gridless method; 3.1.5 Central and upwind schemes; Central schemes; Upwind schemes; Flux-vector splitting schemes; Flux-difference splitting schemes; TVD Schemes; Fluctuation-splitting schemes; Solution reconstruction First- and second-order schemesENO/WENO Schemes; Central versus upwind schemes; Upwind schemes for real gas flows; 3.2 Temporal Discretization; 3.2.1 Explicit schemes; 3.2.2 Implicit schemes; 3.3 Turbulence Modeling; 3.4 Initial and Boundary Conditions; References; Chapter 4: Structured Finite-Volume Schemes; 4.1 Geometrical Quantities of a Control Volume; 4.1.1 Two-dimensional case; 4.1.2 Three-dimensional case; 4.2 General Discretization Methodologies; 4.2.1 Cell-centered scheme; 4.2.2 Cell-vertex scheme: overlapping control volumes; 4.2.3 Cell-vertex scheme: dual control volumes 4.2.4 Cell-centered versus cell-vertex schemes4.3 Discretization of the Convective Fluxes; 4.3.1 Central scheme with artificial dissipation; Scalar dissipation scheme; Matrix dissipation scheme; 4.3.2 Flux-vector splitting schemes; Van Leer's scheme; AUSM; CUSP scheme; 4.3.3 Flux-difference splitting schemes; Roe upwind scheme; 4.3.4 Total variation diminishing schemes; Upwind TVD scheme; 4.3.5 Limiter functions; Limiter functions for MUSCL interpolation; MUSCL scheme with =0; MUSCL scheme with =1/3; Limiter for CUSP scheme; Limiter for TVD scheme; 4.4 Discretization of the Viscous Fluxes 4.4.1 Cell-centered scheme4.4.2 Cell-vertex scheme; References; Chapter 5: Unstructured Finite-Volume Schemes; 5.1 Geometrical Quantities of a Control Volume; 5.1.1 Two-dimensional case; Triangular element; Quadrilateral element; Element center; 5.1.2 Three-dimensional case; Triangular face; Quadrilateral face; Volume; Cell centroid; 5.2 General Discretization Methodologies; 5.2.1 Cell-centered scheme; 5.2.2 Median-dual cell-vertex scheme; 5.2.3 Cell-centered versus median-dual scheme; Accuracy; Computational work; Memory requirements; Grid generation/adaptation |
| Beschreibung: | 1 online resource (XVIII, 447 Seiten) Diagramme |
| ISBN: | 9780128011720 0128011726 9780080999951 |
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| 500 | |a Includes bibliographical references and index | ||
| 500 | |a Front Cover; Computational Fluid Dynamics: Principles and Applications; Copyright; Contents; Acknowledgments; List of Symbols; Abbreviations; Chapter 1: Introduction; Chapter 2: Governing Equations; 2.1 The Flow and Its Mathematical Description; 2.1.1 Finite control volume; 2.2 Conservation Laws; 2.2.1 The continuity equation; 2.2.2 The momentum equation; 2.2.3 The energy equation; 2.3 Viscous Stresses; 2.4 Complete System of the Navier-Stokes Equations; 2.4.1 Formulation for a perfect gas; 2.4.2 Formulation for a real gas; 2.4.3 Simplifications to the Navier-Stokes equations | ||
| 500 | |a Thin shear layer approximationParabolized Navier-Stokes equations; Euler equations; References; Chapter 3: Principles of Solution of the Governing Equations; 3.1 Spatial Discretization; 3.1.1 Finite-difference method; 3.1.2 Finite-volume method; 3.1.3 Finite-element method; 3.1.4 Other discretization methods; Spectral-element method; Lattice Boltzmann method; Gridless method; 3.1.5 Central and upwind schemes; Central schemes; Upwind schemes; Flux-vector splitting schemes; Flux-difference splitting schemes; TVD Schemes; Fluctuation-splitting schemes; Solution reconstruction | ||
| 500 | |a First- and second-order schemesENO/WENO Schemes; Central versus upwind schemes; Upwind schemes for real gas flows; 3.2 Temporal Discretization; 3.2.1 Explicit schemes; 3.2.2 Implicit schemes; 3.3 Turbulence Modeling; 3.4 Initial and Boundary Conditions; References; Chapter 4: Structured Finite-Volume Schemes; 4.1 Geometrical Quantities of a Control Volume; 4.1.1 Two-dimensional case; 4.1.2 Three-dimensional case; 4.2 General Discretization Methodologies; 4.2.1 Cell-centered scheme; 4.2.2 Cell-vertex scheme: overlapping control volumes; 4.2.3 Cell-vertex scheme: dual control volumes | ||
| 500 | |a 4.2.4 Cell-centered versus cell-vertex schemes4.3 Discretization of the Convective Fluxes; 4.3.1 Central scheme with artificial dissipation; Scalar dissipation scheme; Matrix dissipation scheme; 4.3.2 Flux-vector splitting schemes; Van Leer's scheme; AUSM; CUSP scheme; 4.3.3 Flux-difference splitting schemes; Roe upwind scheme; 4.3.4 Total variation diminishing schemes; Upwind TVD scheme; 4.3.5 Limiter functions; Limiter functions for MUSCL interpolation; MUSCL scheme with =0; MUSCL scheme with =1/3; Limiter for CUSP scheme; Limiter for TVD scheme; 4.4 Discretization of the Viscous Fluxes | ||
| 500 | |a 4.4.1 Cell-centered scheme4.4.2 Cell-vertex scheme; References; Chapter 5: Unstructured Finite-Volume Schemes; 5.1 Geometrical Quantities of a Control Volume; 5.1.1 Two-dimensional case; Triangular element; Quadrilateral element; Element center; 5.1.2 Three-dimensional case; Triangular face; Quadrilateral face; Volume; Cell centroid; 5.2 General Discretization Methodologies; 5.2.1 Cell-centered scheme; 5.2.2 Median-dual cell-vertex scheme; 5.2.3 Cell-centered versus median-dual scheme; Accuracy; Computational work; Memory requirements; Grid generation/adaptation | ||
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Datensatz im Suchindex
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| author | Blazek, Jiri |
| author_facet | Blazek, Jiri |
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| author_sort | Blazek, Jiri |
| author_variant | j b jb |
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| discipline | Physik Mathematik |
| edition | Third edition |
| format | Electronic eBook |
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| isbn | 9780128011720 0128011726 9780080999951 |
| language | English |
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| spelling | Blazek, Jiri aut Computational fluid dynamics principles and applications Jiri Blazek, PhD. Third edition Amsterdam Butterworth Heinemann [2015] 1 online resource (XVIII, 447 Seiten) Diagramme txt rdacontent c rdamedia cr rdacarrier Includes bibliographical references and index Front Cover; Computational Fluid Dynamics: Principles and Applications; Copyright; Contents; Acknowledgments; List of Symbols; Abbreviations; Chapter 1: Introduction; Chapter 2: Governing Equations; 2.1 The Flow and Its Mathematical Description; 2.1.1 Finite control volume; 2.2 Conservation Laws; 2.2.1 The continuity equation; 2.2.2 The momentum equation; 2.2.3 The energy equation; 2.3 Viscous Stresses; 2.4 Complete System of the Navier-Stokes Equations; 2.4.1 Formulation for a perfect gas; 2.4.2 Formulation for a real gas; 2.4.3 Simplifications to the Navier-Stokes equations Thin shear layer approximationParabolized Navier-Stokes equations; Euler equations; References; Chapter 3: Principles of Solution of the Governing Equations; 3.1 Spatial Discretization; 3.1.1 Finite-difference method; 3.1.2 Finite-volume method; 3.1.3 Finite-element method; 3.1.4 Other discretization methods; Spectral-element method; Lattice Boltzmann method; Gridless method; 3.1.5 Central and upwind schemes; Central schemes; Upwind schemes; Flux-vector splitting schemes; Flux-difference splitting schemes; TVD Schemes; Fluctuation-splitting schemes; Solution reconstruction First- and second-order schemesENO/WENO Schemes; Central versus upwind schemes; Upwind schemes for real gas flows; 3.2 Temporal Discretization; 3.2.1 Explicit schemes; 3.2.2 Implicit schemes; 3.3 Turbulence Modeling; 3.4 Initial and Boundary Conditions; References; Chapter 4: Structured Finite-Volume Schemes; 4.1 Geometrical Quantities of a Control Volume; 4.1.1 Two-dimensional case; 4.1.2 Three-dimensional case; 4.2 General Discretization Methodologies; 4.2.1 Cell-centered scheme; 4.2.2 Cell-vertex scheme: overlapping control volumes; 4.2.3 Cell-vertex scheme: dual control volumes 4.2.4 Cell-centered versus cell-vertex schemes4.3 Discretization of the Convective Fluxes; 4.3.1 Central scheme with artificial dissipation; Scalar dissipation scheme; Matrix dissipation scheme; 4.3.2 Flux-vector splitting schemes; Van Leer's scheme; AUSM; CUSP scheme; 4.3.3 Flux-difference splitting schemes; Roe upwind scheme; 4.3.4 Total variation diminishing schemes; Upwind TVD scheme; 4.3.5 Limiter functions; Limiter functions for MUSCL interpolation; MUSCL scheme with =0; MUSCL scheme with =1/3; Limiter for CUSP scheme; Limiter for TVD scheme; 4.4 Discretization of the Viscous Fluxes 4.4.1 Cell-centered scheme4.4.2 Cell-vertex scheme; References; Chapter 5: Unstructured Finite-Volume Schemes; 5.1 Geometrical Quantities of a Control Volume; 5.1.1 Two-dimensional case; Triangular element; Quadrilateral element; Element center; 5.1.2 Three-dimensional case; Triangular face; Quadrilateral face; Volume; Cell centroid; 5.2 General Discretization Methodologies; 5.2.1 Cell-centered scheme; 5.2.2 Median-dual cell-vertex scheme; 5.2.3 Cell-centered versus median-dual scheme; Accuracy; Computational work; Memory requirements; Grid generation/adaptation Numerisches Verfahren (DE-588)4128130-5 gnd rswk-swf Numerische Strömungssimulation (DE-588)4690080-9 gnd rswk-swf Strömungsmechanik (DE-588)4077970-1 gnd rswk-swf Numerische Strömungssimulation (DE-588)4690080-9 s DE-604 Strömungsmechanik (DE-588)4077970-1 s Numerisches Verfahren (DE-588)4128130-5 s 1\p DE-604 http://www.sciencedirect.com/science/book/9780080999951 Verlag URL des Erstveröffentlichers Volltext 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Blazek, Jiri Computational fluid dynamics principles and applications Numerisches Verfahren (DE-588)4128130-5 gnd Numerische Strömungssimulation (DE-588)4690080-9 gnd Strömungsmechanik (DE-588)4077970-1 gnd |
| subject_GND | (DE-588)4128130-5 (DE-588)4690080-9 (DE-588)4077970-1 |
| title | Computational fluid dynamics principles and applications |
| title_auth | Computational fluid dynamics principles and applications |
| title_exact_search | Computational fluid dynamics principles and applications |
| title_full | Computational fluid dynamics principles and applications Jiri Blazek, PhD. |
| title_fullStr | Computational fluid dynamics principles and applications Jiri Blazek, PhD. |
| title_full_unstemmed | Computational fluid dynamics principles and applications Jiri Blazek, PhD. |
| title_short | Computational fluid dynamics |
| title_sort | computational fluid dynamics principles and applications |
| title_sub | principles and applications |
| topic | Numerisches Verfahren (DE-588)4128130-5 gnd Numerische Strömungssimulation (DE-588)4690080-9 gnd Strömungsmechanik (DE-588)4077970-1 gnd |
| topic_facet | Numerisches Verfahren Numerische Strömungssimulation Strömungsmechanik |
| url | http://www.sciencedirect.com/science/book/9780080999951 |
| work_keys_str_mv | AT blazekjiri computationalfluiddynamicsprinciplesandapplications |