Verfügbarkeit: Fundamentals of computational fluid dynamics

Fundamentals of computational fluid dynamics:

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Bibliographische Detailangaben
Hauptverfasser:	Lomax, Harvard 1922-1999 (VerfasserIn), Pulliam, Thomas H. 1951- (VerfasserIn), Zingg, David W. 1958- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2001
Schriftenreihe:	Scientific computation Physics and astronomy online library
Schlagworte:	Fluides, Dynamique des - Informatique Datenverarbeitung Fluid dynamics > Data processing Numerisches Verfahren Strömungsmechanik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIV, 249 S. graph. Darst.
ISBN:	3540416072 9783540416074

Internformat

MARC


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Datensatz im Suchindex

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adam_text	CONTENTS 1. INTRODUCTION . 1 1.1 MOTIVATION . 1 1.2 BACKGROUND . 2 1.2.1 PROBLEM SPECIFICATION AND GEOMETRY PREPARATION . 2 1.2.2 SELECTION OF GOVERNING EQUATIONS AND BOUNDARY CONDITIONS . 3 1.2.3 SELECTION OF GRIDDING STRATEGY AND NUMERICAL METHOD 3 1.2.4 ASSESSMENT AND INTERPRETATION OF RESULTS . 4 1.3 OVERVIEW . 4 1.4 NOTATION . 4 2. CONSERVATION LAWS AND THE MODEL EQUATIONS . 7 2.1 CONSERVATION LAWS . 7 2.2 THE NAVIER-STOKES AND EULER EQUATIONS . 8 2.3 THE LINEAR CONVECTION EQUATION . 11 2.3.1 DIFFERENTIAL FORM . 11 2.3.2 SOLUTION IN WAVE SPACE . 12 2.4 THE DIFFUSION EQUATION . 13 2.4.1 DIFFERENTIAL FORM . 13 2.4.2 SOLUTION IN WAVE SPACE . 14 2.5 LINEAR HYPERBOLIC SYSTEMS . 15 EXERCISES . 17 3. FINITE-DIFFERENCE APPROXIMATIONS . 19 3.1 MESHES AND FINITE-DIFFERENCE NOTATION . 19 3.2 SPACE DERIVATIVE APPROXIMATIONS . 21 3.3 FINITE-DIFFERENCE OPERATORS . 22 3.3.1 POINT DIFFERENCE OPERATORS . 22 3.3.2 MATRIX DIFFERENCE OPERATORS . 23 3.3.3 PERIODIC MATRICES . 26 3.3.4 CIRCULANT MATRICES . 27 3.4 CONSTRUCTING DIFFERENCING SCHEMES OF ANY ORDER . 28 3.4.1 TAYLOR TABLES . 28 3.4.2 GENERALIZATION OF DIFFERENCE FORMULAS . 31 X CONTENTS 3.4.3 LAGRANGE AND HERMITE INTERPOLATION POLYNOMIALS . 33 3.4.4 PRACTICAL APPLICATION OF PADE FORMULAS . 35 3.4.5 OTHER HIGHER-ORDER SCHEMES . 36 3.5 FOURIER ERROR ANALYSIS . 37 3.5.1 APPLICATION TO A SPATIAL OPERATOR . 37 3.6 DIFFERENCE OPERATORS AT BOUNDARIES . 41 3.6.1 THE LINEAR CONVECTION EQUATION . 41 3.6.2 THE DIFFUSION EQUATION . 44 EXERCISES . 46 4. THE SEMI-DISCRETE APPROACH . 49 4.1 REDUCTION OF PDE ' S TO ODE ' S . 50 4.1.1 THE MODEL ODE ' S . 50 4.1.2 THE GENERIC MATRIX FORM . 51 4.2 EXACT SOLUTIONS OF LINEAR ODE ' S . 51 4.2.1 EIGENSYSTEMS OF SEMI-DISCRETE LINEAR FORMS . 52 4.2.2 SINGLE ODE ' S OF FIRST AND SECOND ORDER . 53 4.2.3 COUPLED FIRST-ORDER ODE ' S . 54 4.2.4 GENERAL SOLUTION OF COUPLED ODE ' S WITH COMPLETE EIGENSYSTEMS . 56 4.3 REAL SPACE AND EIGENSPACE . 58 4.3.1 DEFINITION . 58 4.3.2 EIGENVALUE SPECTRUMS FOR MODEL ODE ' S . 59 4.3.3 EIGENVECTORS OF THE MODEL EQUATIONS . 60 4.3.4 SOLUTIONS OF THE MODEL ODE ' S . 62 4.4 THE REPRESENTATIVE EQUATION . 64 EXERCISES . 65 5. FINITE-VOLUME METHODS . 67 5.1 BASIC CONCEPTS . 67 5.2 MODEL EQUATIONS IN INTEGRAL FORM . 69 5.2.1 THE LINEAR CONVECTION EQUATION . 69 5.2.2 THE DIFFUSION EQUATION . 70 5.3 ONE-DIMENSIONAL EXAMPLES . 70 5.3.1 A SECOND-ORDER APPROXIMATION TO THE CONVECTION EQUATION . 71 5.3.2 A FOURTH-ORDER APPROXIMATION TO THE CONVECTION EQUATION . 72 5.3.3 A SECOND-ORDER APPROXIMATION TO THE DIFFUSION EQUATION . 74 5.4 A TWO-DIMENSIONAL EXAMPLE . 76 EXERCISES . 79 CONTENTS XI 6. TIME-MARCHING METHODS FOR ODE ' S . 81 6.1 NOTATION . 82 6.2 CONVERTING TIME-MARCHING METHODS TO OZLE ' S . 83 6.3 SOLUTION OF LINEAR OZAE ' S WITH CONSTANT COEFFICIENTS . 84 6.3.1 FIRST AND SECOND-ORDER DIFFERENCE EQUATIONS . 84 6.3.2 SPECIAL CASES OF COUPLED FIRST-ORDER EQUATIONS . 86 6.4 SOLUTION OF THE REPRESENTATIVE OZLE ' S . 87 6.4.1 THE OPERATIONAL FORM AND ITS SOLUTION . 87 6.4.2 EXAMPLES OF SOLUTIONS TO TIME-MARCHING OZLE ' S . 88 6.5 THE X-A RELATION . 89 6.5.1 ESTABLISHING THE RELATION . 89 6.5.2 THE PRINCIPAL R-ROOT . 90 6.5.3 SPURIOUS R-ROOTS . 91 6.5.4 ONE-ROOT TIME-MARCHING METHODS . 92 6.6 ACCURACY MEASURES OF TIME-MARCHING METHODS . 92 6.6.1 LOCAL AND GLOBAL ERROR MEASURES . 92 6.6.2 LOCAL ACCURACY OF THE TRANSIENT SOLUTION (ERX, \|CR \| , ER W ) 93 6.6.3 LOCAL ACCURACY OF THE PARTICULAR SOLUTION (ER M ) . 94 6.6.4 TIME ACCURACY FOR NONLINEAR APPLICATIONS . 95 6.6.5 GLOBAL ACCURACY . 96 6.7 LINEAR MULTISTEP METHODS . 96 6.7.1 THE GENERAL FORMULATION . 97 6.7.2 EXAMPLES . 97 6.7.3 TWO-STEP LINEAR MULTISTEP METHODS . 100 6.8 PREDICTOR-CORRECTOR METHODS . 101 6.9 RUNGE-KUTTA METHODS . 103 6.10 IMPLEMENTATION OF IMPLICIT METHODS . 105 6.10.1 APPLICATION TO SYSTEMS OF EQUATIONS . 105 6.10.2 APPLICATION TO NONLINEAR EQUATIONS . 106 6.10.3 LOCAL LINEARIZATION FOR SCALAR EQUATIONS . 107 6.10.4 LOCAL LINEARIZATION FOR COUPLED SETS OF NONLINEAR EQUATIONS . 110 EXERCISES . :. 112 7. STABILITY OF LINEAR SYSTEMS . 115 7.1 DEPENDENCE ON THE EIGENSYSTEM . 115 7.2 INHERENT STABILITY OF ODE ' S . 116 7.2.1 THE CRITERION . 116 7.2.2 COMPLETE EIGENSYSTEMS . 117 7.2.3 DEFECTIVE EIGENSYSTEMS . 117 7.3 NUMERICAL STABILITY OF OZLE ' S . 118 7.3.1 THE CRITERION . 118 7.3.2 COMPLETE EIGENSYSTEMS . 118 7.3.3 DEFECTIVE EIGENSYSTEMS . 119 7.4 TIME-SPACE STABILITY AND CONVERGENCE OF OZLE ' S . 119 XII CONTENTS 7.5 NUMERICAL STABILITY CONCEPTS IN THE COMPLEX A-PLANE . 121 7.5.1 CR-ROOT TRACES RELATIVE TO THE UNIT CIRCLE . 121 7.5.2 STABILITY FOR SMALL AT . 126 7.6 NUMERICAL STABILITY CONCEPTS IN THE COMPLEX XH PLANE . 127 7.6.1 STABILITY FOR LARGE H . 127 7.6.2 UNCONDITIONAL STABILITY, A-STABLE METHODS . 128 7.6.3 STABILITY CONTOURS IN THE COMPLEX XH PLANE . 130 7.7 FOURIER STABILITY ANALYSIS . 133 7.7.1 THE BASIC PROCEDURE . 133 7.7.2 SOME EXAMPLES . 134 7.7.3 RELATION TO CIRCULANT MATRICES . 135 7.8 CONSISTENCY . 135 EXERCISES . 138 8. CHOOSING A TIME-MARCHING METHOD . 141 8.1 STIFFNESS DEFINITION FOR ODE ' S . 141 8.1.1 RELATION TO A-EIGENVALUES . 141 8.1.2 DRIVING AND PARASITIC EIGENVALUES . 142 8.1.3 STIFFNESS CLASSIFICATIONS . 143 8.2 RELATION OF STIFFNESS TO SPACE MESH SIZE . 143 8.3 PRACTICAL CONSIDERATIONS FOR COMPARING METHODS . 144 8.4 COMPARING THE EFFICIENCY OF EXPLICIT METHODS . 145 8.4.1 IMPOSED CONSTRAINTS . 145 8.4.2 AN EXAMPLE INVOLVING DIFFUSION . 146 8.4.3 AN EXAMPLE INVOLVING PERIODIC CONVECTION . 147 8.5 COPING WITH STIFFNESS . 149 8.5.1 EXPLICIT METHODS . 149 8.5.2 IMPLICIT METHODS . 150 8.5.3 A PERSPECTIVE . 151 8.6 STEADY PROBLEMS . 151 EXERCISES . 152 9. RELAXATION METHODS . 153 9.1 FORMULATION OF THE MODEL PROBLEM . 154 9.1.1 PRECONDITIONING THE BASIC MATRIX . 154 9.1.2 THE MODEL EQUATIONS . 156 9.2 CLASSICAL RELAXATION . 157 9.2.1 THE DELTA FORM OF AN ITERATIVE SCHEME . 157 9.2.2 THE CONVERGED SOLUTION, THE RESIDUAL, AND THE ERROR . 158 9.2.3 THE CLASSICAL METHODS . 158 9.3 THE ODE APPROACH TO CLASSICAL RELAXATION . 159 9.3.1 THE ORDINARY DIFFERENTIAL EQUATION FORMULATION . 159 9.3.2 ODE FORM OF THE CLASSICAL METHODS . 161 9.4 EIGENSYSTEMS OF THE CLASSICAL METHODS . 162 9.4.1 THE POINT-JACOBI SYSTEM . 163 CONTENTS XIII 9.4.2 THE GAUSS-SEIDEL SYSTEM . 166 9.4.3 THE SOR SYSTEM . 169 9.5 NONSTATIONARY PROCESSES . 171 EXERCISES . 176 10. MULTIGRID . 177 10.1 MOTIVATION . 177 10.1.1 EIGENVECTOR AND EIGENVALUE IDENTIFICATION WITH SPACE FREQUENCIES . 177 10.1.2 PROPERTIES OF THE ITERATIVE METHOD . 178 10.2 THE BASIC PROCESS . 178 10.3 A TWO-GRID PROCESS . 185 EXERCISES . 187 11. NUMERICAL DISSIPATION . 189 11.1 ONE-SIDED FIRST-DERIVATIVE SPACE DIFFERENCING . 189 11.2 THE MODIFIED PARTIAL DIFFERENTIAL EQUATION . 190 11.3 THE LAX-WENDROFF METHOD . 192 11.4 UPWIND SCHEMES . 195 11.4.1 FLUX-VECTOR SPLITTING . 196 11.4.2 FLUX-DIFFERENCE SPLITTING . 198 11.5 ARTIFICIAL DISSIPATION . 199 EXERCISES . 200 12. SPLIT AND FACTORED FORMS . 203 12.1 THE CONCEPT . 203 12.2 FACTORING PHYSICAL REPRESENTATIONS - TIME SPLITTING . 204 12.3 FACTORING SPACE MATRIX OPERATORS IN 2D . 206 12.3.1 MESH INDEXING CONVENTION . 206 12.3.2 DATA-BASES AND SPACE VECTORS . 206 12.3.3 DATA-BASE PERMUTATIONS . 207 12.3.4 SPACE SPLITTING AND FACTORING . 207 12.4 SECOND-ORDER FACTORED IMPLICIT METHODS . 211 12.5 IMPORTANCE OF FACTORED FORMS IN TWO AND THREE DIMENSIONS . 212 12.6 THE DELTA FORM . 213 EXERCISES . 214 13. ANALYSIS OF SPLIT AND FACTORED FORMS . 217 13.1 THE REPRESENTATIVE EQUATION FOR CIRCULANT OPERATORS . 217 13.2 EXAMPLE ANALYSIS OF CIRCULANT SYSTEMS . 218 13.2.1 STABILITY COMPARISONS OF TIME-SPLIT METHODS . 218 13.2.2 ANALYSIS OF A SECOND-ORDER TIME-SPLIT METHOD . 220 13.3 THE REPRESENTATIVE EQUATION FOR SPACE-SPLIT OPERATORS . 222 13.4 EXAMPLE ANALYSIS OF THE 2D MODEL EQUATION . 225 XIV CONTENTS 13.4.1 THE UNFACTORED IMPLICIT EULER METHOD . 225 13.4.2 THE FACTORED NONDELTA FORM OF THE IMPLICIT EULER METHOD . 226 13.4.3 THE FACTORED DELTA FORM OF THE IMPLICIT EULER METHOD 227 13.4.4 THE FACTORED DELTA FORM OF THE TRAPEZOIDAL METHOD . 227 13.5 EXAMPLE ANALYSIS OF THE 3D MODEL EQUATION . 228 EXERCISES . 230 APPENDICES . 231 A. USEFUL RELATIONS FROM LINEAR ALGEBRA . 231 A.L NOTATION . 231 A.2 DEFINITIONS . 232 A.3 ALGEBRA . 232 A.4 EIGENSYSTEMS . 233 A.5 VECTOR AND MATRIX NORMS . 235 B. SOME PROPERTIES OF TRIDIAGONAL MATRICES . 237 B.L STANDARD EIGENSYSTEM FOR SIMPLE TRIDIAGONAL MATRICES . 237 B.2 GENERALIZED EIGENSYSTEM FOR SIMPLE TRIDIAGONAL MATRICES . 238 B.3 THE INVERSE OF A SIMPLE TRIDIAGONAL MATRIX . 239 B.4 EIGENSYSTEMS OF CIRCULANT MATRICES . 240 B.4.1 STANDARD LYIDIAGONAL MATRICES . 240 B.4. 2 GENERAL CIRCULANT SYSTEMS . 241 B.5 SPECIAL CASES FOUND FROM SYMMETRIES . 241 B.6 SPECIAL CASES INVOLVING BOUNDARY CONDITIONS . 242 C. THE HOMOGENEOUS PROPERTY OF THE EULER EQUATIONS . 245 INDEX . 247
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spelling	Lomax, Harvard 1922-1999 Verfasser (DE-588)13051604X aut Fundamentals of computational fluid dynamics H. Lomax ; T. H. Pulliam ; D. W. Zingg Berlin [u.a.] Springer 2001 XIV, 249 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Scientific computation Physics and astronomy online library Fluides, Dynamique des - Informatique Datenverarbeitung Fluid dynamics Data processing Numerisches Verfahren (DE-588)4128130-5 gnd rswk-swf Strömungsmechanik (DE-588)4077970-1 gnd rswk-swf Strömungsmechanik (DE-588)4077970-1 s Numerisches Verfahren (DE-588)4128130-5 s DE-604 Pulliam, Thomas H. 1951- Verfasser (DE-588)122651006 aut Zingg, David W. 1958- Verfasser (DE-588)122651014 aut DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009322871&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Lomax, Harvard 1922-1999 Pulliam, Thomas H. 1951- Zingg, David W. 1958- Fundamentals of computational fluid dynamics Fluides, Dynamique des - Informatique Datenverarbeitung Fluid dynamics Data processing Numerisches Verfahren (DE-588)4128130-5 gnd Strömungsmechanik (DE-588)4077970-1 gnd
subject_GND	(DE-588)4128130-5 (DE-588)4077970-1
title	Fundamentals of computational fluid dynamics
title_auth	Fundamentals of computational fluid dynamics
title_exact_search	Fundamentals of computational fluid dynamics
title_full	Fundamentals of computational fluid dynamics H. Lomax ; T. H. Pulliam ; D. W. Zingg
title_fullStr	Fundamentals of computational fluid dynamics H. Lomax ; T. H. Pulliam ; D. W. Zingg
title_full_unstemmed	Fundamentals of computational fluid dynamics H. Lomax ; T. H. Pulliam ; D. W. Zingg
title_short	Fundamentals of computational fluid dynamics
title_sort	fundamentals of computational fluid dynamics
topic	Fluides, Dynamique des - Informatique Datenverarbeitung Fluid dynamics Data processing Numerisches Verfahren (DE-588)4128130-5 gnd Strömungsmechanik (DE-588)4077970-1 gnd
topic_facet	Fluides, Dynamique des - Informatique Datenverarbeitung Fluid dynamics Data processing Numerisches Verfahren Strömungsmechanik
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009322871&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT lomaxharvard fundamentalsofcomputationalfluiddynamics AT pulliamthomash fundamentalsofcomputationalfluiddynamics AT zinggdavidw fundamentalsofcomputationalfluiddynamics

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