High resolution methods for incompressible and low speed flows: with ... 32 tables
Gespeichert in:
| Hauptverfasser: | , |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2005
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| Schriftenreihe: | Computational fluid and solid mechanics
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Literaturverz. S. 577 - 613 |
| Beschreibung: | XX, 622 S. graph. Darst. |
| ISBN: | 3540221360 |
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| 245 | 1 | 0 | |a High resolution methods for incompressible and low speed flows |b with ... 32 tables |c Dimitris Drikakis ; William Rider |
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 2005 | |
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Datensatz im Suchindex
| _version_ | 1804133279204376576 |
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| adam_text | DIMITRIS DRIKAKIS * WILLIAM RIDER HIGH-RESOLUTION METHODS FOR
INCOMPRESSIBLE AND LOW-SPEED FLOWS WITH 480 FIGURES AND 32 TABLES 4Y
SPRINGER CONTENTS 1. INTRODUCTION PART I. FUNDAMENTAL PHYSICAL AND MODEL
EQUATIONS 2. THE FLUID FLOW EQUATIONS 7 2.1 MATHEMATICAL PRELIMINARIES 7
2.2 KINEMATIC CONSIDERATIONS 9 2.3 THE EQUATIONS FOR VARIABLE DENSITY
FLOWS 10 2.3.1 THE CONTINUITY EQUATION 10 2.3.2 THE MOMENTUM EQUATIONS
11 2.3.3 THE ENERGY EQUATION 14 2.4 COMPRESSIBLE EULER EQUATIONS 16 2.5
LOW-MACH NUMBER SCALING 20 2.6 BOUSSINESQ APPROXIMATION 23 2.7 VARIABLE
DENSITY FLOW 23 2.8 ZERO MACH NUMBER COMBUSTION 24 2.9 INITIAL AND
BOUNDARY CONDITIONS 25 3. THE VISCOUS FLUID FLOW EQUATIONS 27 3.1 THE
STRESS AND STRAIN TENSORS FOR A NEWTONIAN FLUID 27 3.2 THE NAVIER-STOKES
EQUATIONS FOR CONSTANT DENSITY FLOWS .... 31 3.3 NON-NEWTONIAN
CONSTITUTIVE EQUATIONS FOR THE SHEAR-STRESS TENSOR 33 3.3.1 GENERALIZED
NEWTONIAN FLUIDS 33 3.3.2 VISCOELASTIC FLUIDS 34 3.3.3 OTHER
VISCOELASTIC MODELS 37 3.4 ALTERNATIVE FORMS OF THE ADVECTIVE AND
VISCOUS TERMS 38 3.5 NONDIMENSIONALIZATION OF THE GOVERNING EQUATIONS 39
3.6 GENERAL REMARKS ON TURBULENT FLOW SIMULATIONS 42 3.7
REYNOLDS-AVERAGED NAVIER-STOKES EQUATIONS (RANS) 43 3.8 LARGE EDDY
SIMULATION (LES) 47 3.9 CLOSING REMARKS 49 XIV CONTENTS 4. CURVILINEAR
COORDINATES AND TRANSFORMED EQUATIONS 51 4.1 GENERALIZED CURVILINEAR
COORDINATES 51 4.2 CALCULATION OF METRICS 55 4.3 TRANSFORMATION OF THE
FLUID FLOW EQUATIONS 57 4.4 VISCOUS TERMS 60 4.5 GEOMETRIC CONSERVATION
LAW 63 5. OVERVIEW OF VARIOUS FORMULATIONS AND MODEL EQUATIONS . . 67 5.
1 OVERVIEW OF VARIOUS FORMULATIONS OF THE INCOMPRESSIBLE FLOW EQUATIONS
67 5.1.1 VORTICITY/STREAM-FUNCTION FORMULATION 67 5.1.2 THE
VORTICITY/VECTOR-POTENTIAL FORMULATION 69 5.1.3 VORTICITY-VELOCITY
FORMULATION 70 5.1.4 PRESSURE-POISSON FORMULATION 70 5.1.5 PROJECTION
FORMULATION 71 5.1.6 ARTIFICIAL-COMPRESSIBILITY FORMULATION 71 5.1.7
PENALTY FORMULATION 72 5.1.8 HYBRID FORMULATIONS 73 5.2 MODEL EQUATIONS
75 5.2.1 ADVECTION-DIFFUSION EQUATION 75 5.2.2 BURGERS EQUATION 76 6.
BASIC PRINCIPLES IN NUMERICAL ANALYSIS 79 6.1 STABILITY, CONSISTENCY AND
ACCURACY 79 6.2 FOURIER ANALYSIS 83 6.2.1 FOURIER ANALYSIS OF
FIRST-ORDER UPWIND 85 6.2.2 FOURIER ANALYSIS OF SECOND-ORDER UPWIND 86
6.3 MODIFIED EQUATION ANALYSIS 90 6.4 VERIFICATION VIA SAMPLE
CALCULATIONS 94 7. TIME INTEGRATION METHODS 9 9 7.1 TIME INTEGRATION OF
THE FLOW EQUATIONS 99 7.2 LAX-WENDROFF-TYPE METHODS 100 7.3 OTHER
APPROACHES TO TIME-CENTERING 102 7.4 RUNGE-KUTTA METHODS 103 7.4.1
SECOND-ORDER RUNGE-KUTTA 104 7.4.2 THIRD-ORDER RUNGE-KUTTA 106 7.4.3
FOURTH-ORDER RUNGE-KUTTA 107 7.4.4 TVD RUNGE-KUTTA METHODS APPLIED TO
HYPERBOLIC CONSERVATION LAWS 109 7.5 LINEAR MULTI-STEP METHODS 113 7.5.1
ADAMS-BASHFORTH METHOD 113 7.5.2 ADAMS-MOULTON METHOD 116 7.5.3 BACKWARD
DIFFERENTIATION FORMULAS 119 CONTENTS XV 8. NUMERICAL LINEAR ALGEBRA 121
8.1 BASIC NUMERICAL LINEAR ALGEBRA 121 8.2 BASIC RELAXATION METHODS 123
8.3 CONJUGATE GRADIENT AND KRYLOV SUBSPACE METHODS 126 8.4 MULTIGRID
ALGORITHM FOR ELLIPTIC EQUATIONS 130 8.5 MULTIGRID ALGORITHM AS A
PRECONDITIONER FOR KRYLOV SUBSPACE METHODS 138 8.6 NEWTON S AND
NEWTON-KRYLOV METHOD 139 8.7 A MULTIGRID NEWTON-KRYLOV ALGORITHM 140
PART II. SOLUTION APPROACHES 9. COMPRESSIBLE AND
PRECONDITIONED-COMPRESSIBLE SOLVERS ... 147 9.1 RECONSTRUCTING THE
DEPENDENT VARIABLES 147 9.1.1 RIEMANN SOLVERS 148 9.1.2 BASIC
PREDICTOR-CORRECTOR 152 9.1.3 CHARACTERISTIC DIRECT EULERIAN 153 9.1.4
LAGRANGE-REMAP APPROACH 155 9.2 RECONSTRUCTING THE FLUXES 156 9.2.1 FLUX
SPLITTING 157 9.2.2 FLUX SPLITTING TIME INTEGRATION 158 9.3
PRECONDITIONING FOR LOW SPEED FLOWS 160 9.3.1 OVERVIEW OF
PRECONDITIONING TECHNIQUES 160 9.3.2 PRECONDITIONING CHOICES FOR
COMPRESSIBLE FLOWS 161 9.3.3 PRECONDITIONING OF NUMERICAL DISSIPATION
167 9.3.4 DIFFERENTIAL PRECONDITIONERS 169 10. THE ARTIFICIAL
COMPRESSIBILITY METHOD 173 10.1 BASIC FORMULATION 173 10.2 CONVERGENCE
TO THE INCOMPRESSIBLE LIMIT 174 10.3 PRECONDITIONING AND THE ARTIFICIAL
COMPRESSIBILITY METHOD . . . 176 10.4 EIGENSTRUCTURE OF THE
INCOMPRESSIBLE EQUATIONS 177 10.5 ESTIMATION OF THE ARTIFICIAL
COMPRESSIBILITY PARAMETER 180 10.6 EXPLICIT SOLVERS FOR ARTIFICIAL
COMPRESSIBILITY 183 10.7 IMPLICIT SOLVERS FOR ARTIFICIAL COMPRESSIBILITY
184 10.7.1 TIME-LINEARIZED (EULER) IMPLICIT SCHEME 184 10.7.2 IMPLICIT
APPROXIMATE FACTORIZATION METHOD 185 10.7.3 IMPLICIT UNFACTORED METHOD
186 10.8 EXTENSION OF THE ARTIFICIAL COMPRESSIBILITY TO UNSTEADY FLOWS
188 10.9 BOUNDARY CONDITIONS 190 10.10 LOCAL TIME STEP 191 10.11
MULTIGRID FOR THE ARTIFICIAL-COMPRESSIBILITY FORMULATION 192 10.11.1
RATIONALE FOR THREE-GRID MULTIGRID 192 10.11.2 FMG-FAS ALGORITHM 193 XVI
CONTENTS 10.11.3 REMARKS ON THE FULL APPROXIMATION STORAGE (FAS)
PROCEDURE 196 10.11.4 EFFECTS OF PRE- AND POST-RELAXATION ON THE
EFFICIENCY OF FMG-FAS 197 10.11.5 TRANSFER OPERATORS 198 10.11.6
ADAPTIVE MULTIGRID 201 11. PROJECTION METHODS: THE BASIC THEORY AND THE
EXACT PRO- JECTION METHOD 209 11.1 GRIDS - VARIABLE POSITIONING 210 11.2
CONTINUOUS PROJECTIONS FOR INCOMPRESSIBLE FLOW 211 11.2.1 CONTINUOUS
PROJECTIONS FOR CONSTANT DENSITY INCOMPRESSIBLE FLOW 212 11.2.2
CONTINUOUS PROJECTIONS FOR VARIABLE DENSITY INCOMPRESSIBLE FLOW 213 11.3
EXACT DISCRETE PROJECTIONS 213 11.3.1 CELL-CENTERED EXACT PROJECTIONS
214 11.3.2 VERTEX-CENTERED EXACT PROJECTIONS 217 11.3.3 THE MAC
PROJECTION 219 11.3.4 THE MAC PROJECTION USED WITH GODUNOV-TYPE METHODS
220 11.3.5 OTHER EXACT PROJECTIONS 223 11.4 SECOND-ORDER PROJECTION
ALGORITHMS FOR INCOMPRESSIBLE FLOW 223 11.5 BOUNDARY CONDITIONS 225
11.5.1 SOLVABILITY 225 11.5.2 SOLID WALL BOUNDARY CONDITIONS 227 12.
APPROXIMATE PROJECTION METHODS 237 12.1 NUMERICAL ISSUES WITH
APPROXIMATE PROJECTION METHODS 237 12.2 PROJECTION ALGORITHMS FOR
INCOMPRESSIBLE FLOW 243 12.3 ANALYSIS OF PROJECTION ALGORITHMS 244
12.3.1 BASIC DEFINITIONS FOR ANALYSIS 244 12.3.2 ANALYSIS OF APPROXIMATE
PROJECTION ALGORITHMS 245 12.3.3 INCREMENTAL VELOCITY DIFFERENCE
PROJECTION 247 12.3.4 PRESSURE VELOCITY DIFFERENCE PROJECTION 248 12.3.5
INCREMENTAL VELOCITY PROJECTION 248 12.3.6 PRESSURE VELOCITY PROJECTION
249 12.3.7 DISCUSSION OF ANALYSIS RESULTS 249 12.4 PRESSURE POISSON
EQUATION METHODS 250 12.4.1 SIMPLE-TYPE METHODS 251 12.4.2 IMPLICIT
HIGH-RESOLUTION ADVECTION 254 12.4.3 IMPLICIT DIRECT METHODS 255 12.5
FILTERS 256 12.5.1 CLASSIFICATION OF ERROR MODES 256 12.5.2 PROJECTION
FILTERS 258 CONTENTS XVII 12.5.3 VELOCITY FILTERS 263 12.6 METHOD
DEMONSTRATION AND VERIFICATION 271 12.6.1 VORTEX-IN-A-BOX 271 12.6.2
INFLOW WITH SHEAR 272 12.6.3 DOUBLING PERIODIC SHEAR LAYER 273 12.6.4
LONG TIME INTEGRATION 274 12.6.5 CIRCULAR DROP PROBLEM 279 12.6.6
RESULTS USING VARIOUS FILTERS 285 PART III. MODERN HIGH-RESOLUTION
METHODS 13. INTRODUCTION TO MODERN HIGH-RESOLUTION METHODS 295 13.1
GENERAL REMARKS ABOUT HIGH-RESOLUTION METHODS 295 13.2 THE CONCEPT OF
NONOSCILLATORY METHODS AND TOTAL VARIATION . 301 13.3 MONOTONICITY 303
13.4 GENERAL REMARKS ON RIEMANN SOLVERS 305 14. HIGH-RESOLUTION
GODUNOV-TYPE METHODS FOR PROJECTION METH- ODS 309 14.1 FIRST-ORDER
ALGORITHM 309 14.2 HIGH-RESOLUTION ALGORITHMS 316 14.2.1 PIECEWISE
LINEAR METHODS (PLM) 316 14.2.2 PIECEWISE PARABOLIC METHODS (PPM) 320
14.2.3 ALGORITHM VERIFICATION TESTS 323 14.3 STAGGERED GRID SPATIAL
DIFFERENCING 325 14.4 UNSPLIT SPATIAL DIFFERENCING 327 14.4.1 LEAST
SQUARES RECONSTRUCTION 329 14.4.2 MONOTONE LIMITERS AND EXTENSIONS 333
14.4.3 MONOTONIC CONSTRAINED MINIMIZATION 334 14.4.4 DIVERGENCE-FREE
RECONSTRUCTIONS 336 14.4.5 EXTENDING CLASSICAL TVD LIMITERS 336 14.5
MULTIDIMENSIONAL RESULTS 340 14.6 VISCOUS TERMS 342 14.7 STABILITY 343
15. CENTERED HIGH-RESOLUTION METHODS 347 15.1 LAX-FRIEDRICHS SCHEME 348
15.2 LAX-WENDROFF SCHEME 353 15.3 FIRST-ORDER CENTERED SCHEME 358 15.3.1
RANDOM CHOICE METHOD 359 15.3.2 FORCE 361 15.3.3 VARIANTS OF THE FORCE
SCHEME 363 15.4 SECOND- AND THIRD-ORDER CENTERED SCHEMES 364 15.4.1
NESSYAHU-TADMOR SECOND-ORDER SCHEME 364 XVIII CONTENTS 15.4.2
TWO-DIMENSIONAL FORMULATION 367 15.4.3 THIRD-ORDER CENTERED SCHEME 369
16. RIEMANN SOLVERS AND TVD METHODS IN STRICT CONSERVATION FORM 373 16.1
THE FLUX LIMITER APPROACH 373 16.2 CONSTRUCTION OF FLUX LIMITERS 374
16.2.1 FLUX LIMITER FOR THE GODUNOV/LAX-WENDROFF TVD SCHEME 375 16.2.2
FLUX LIMITER FOR THE CHARACTERISTICS-BASED/LAX-FRIEDRICHS SCHEME 376
16.3 OTHER APPROACHES FOR CONSTRUCTING ADVECTIVE SCHEMES 382 16.3.1
POSITIVE SCHEMES 382 16.3.2 UNIVERSAL LIMITER 384 16.4 THE
CHARACTERISTICS-BASED SCHEME 384 16.4.1 INTRODUCTORY REMARKS AND BASIC
FORMULATION 384 16.4.2 DIMENSIONAL SPLITTING 386 16.4.3
CHARACTERISTICS-BASED RECONSTRUCTION IN THREE DIMENSIONS 389 16.4.4
RECONSTRUCTED CHARACTERISTICS-BASED VARIABLES IN TWO DIMENSIONS 392
16.4.5 HIGH-ORDER INTERPOLATION 393 16.4.6 ADVECTIVE FLUX CALCULATION
396 16.4.7 RESULTS 397 16.5 FLUX LIMITING VERSION OF THE CB SCHEME 404
16.6 IMPLEMENTATION OF THE CHARACTERISTICS-BASED METHOD IN UN-
STRUCTURED GRIDS 404 16.7 THE WEIGHT AVERAGE FLUX METHOD 406 16.7.1
BASIC FORMULATION 406 16.7.2 TVD VERSION OF THE WAF SCHEMES 408 16.8
ROE S METHOD 409 16.9 OSHER S METHOD 412 16.10 CHAKRAVARTHY-OSHER TVD
SCHEME 414 16.11 HARTEN, LAX AND VAN LEER (HLL) SCHEME 416 16.12 HLLC
SCHEME 419 16.13 ESTIMATION OF THE WAVE SPEEDS FOR THE HLL AND HLLC RIE-
MANN SOLVERS : 420 16.14 HLLE SCHEME 421 16.15 COMPARISON OF CB AND HLLE
SCHEMES 421 16.16 VISCOUS TVD LIMITERS 424 17. BEYOND SECOND-ORDER
METHODS 429 17.1 GENERAL REMARKS ON HIGH-ORDER METHODS 430 17.2
ESSENTIALLY NONOSCILLATORY SCHEMES (ENO) 433 17.3 ENO SCHEMES USING
FLUXES 436 CONTENTS XIX 17.4 WEIGHTED ENO SCHEMES 439 17.4.1 THIRD-ORDER
WENO RECONSTRUCTION 441 17.4.2 FOURTH-ORDER WENO RECONSTRUCTION 442 17.5
A FLUX-BASED VERSION OF THE WENO SCHEME 444 17.6 ARTIFICIAL COMPRESSION
METHOD FOR ENO AND WENO 447 17.7 THE ADER APPROACH 448 17.7.1 LINEAR
SCALAR CASE 449 17.7.2 MULTIPLE DIMENSIONS: SCALAR CASE 451 17.7.3
EXTENSION TO NONLINEAR HYPERBOLIC SYSTEMS 453 17.8 EXTENDING AND
RELAXING MONOTONICITY IN GODUNOV-TYPE METH- ODS 455 17.8.1 ACCURACY AND
MONOTONICITY PRESERVING LIMITERS 455 17.8.2 EXTREMA AND MONOTONICITY
PRESERVING METHODS 460 17.8.3 STEEPENED TRANSPORT METHODS 465 17.9
DISCONTINUOUS GALERKIN METHODS 467 17.10 UNIFORMLY HIGH-ORDER SCHEME FOR
GODUNOV-TYPE FLUXES .. . 469 17.11 FLUX-CORRECTED TRANSPORT 472 17.12
MPDATA 475 PART IV. APPLICATIONS 18. VARIABLE DENSITY FLOWS AND VOLUME
TRACKING METHODS . . . 479 18.1 MULTIMATERIAL MIXING FLOWS 479 18.1.1
SHEAR FLOWS 480 18.1.2 RISING BUBBLES 482 18.1.3 RAYLEIGH-TAYLOR
INSTABILITY 483 18.2 VOLUME TRACKING 490 18.2.1 FLUID VOLUME EVOLUTION
EQUATIONS 492 18.2.2 BASIC FEATURES OF VOLUME TRACKING METHODS 493 18.3
THE HISTORY OF VOLUME TRACKING 495 18.4 A GEOMETRICALLY BASED METHOD OF
SOLUTION 499 18.4.1 A GEOMETRIC TOOLBOX 500 18.4.2 RECONSTRUCTING THE
INTERFACE 502 18.4.3 MATERIAL VOLUME FLUXES 510 18.4.4 TIME INTEGRATION
513 18.4.5 TRANSLATION AND ROTATION TESTS 515 18.5 RESULTS FOR VORTICAL
FLOWS 519 18.5.1 SINGLE VORTEX 521 18.5.2 DEFORMATION FIELD 525 XX
CONTENTS 19. HIGH-RESOLUTION METHODS AND TURBULENT FLOW COMPUTATION 529
19.1 PHYSICAL CONSIDERATIONS 529 19.2 SURVEY OF THEORY AND MODELS 533
19.3 RELATION OF HIGH-RESOLUTION METHODS AND FLOW PHYSICS 536 19.3.1
NUMERICAL CONSIDERATIONS 537 19.3.2 RELATION OF HIGH-RESOLUTION METHODS
TO WEAK SOLU- TIONS AND TURBULENCE 538 19.4 LARGE EDDY SIMULATION:
STANDARD AND IMPLICIT 539 19.5 NUMERICAL ANALYSIS OF SUBGRID MODELS 543
19.6 ILES ANALYSIS 544 19.6.1 EXPLICIT MODELING 544 19.6.2 IMPLICIT
MODELING 546 19.6.3 LIMITERS 547 19.6.4 ENERGY ANALYSIS 549 19.7
COMPUTATIONAL EXAMPLES 552 19.7.1 BURGERS TURBULENCE (BURGULENCE) 552
19.7.2 CONVECTIVE PLANETARY BOUNDARY LAYER 553 A. MATHEMATICA COMMANDS
FOR NUMERICAL ANALYSIS 557 A.I FOURIER ANALYSIS FOR FIRST-ORDER UPWIND
METHODS 557 A.2 FOURIER ANALYSIS FOR SECOND-ORDER UPWIND METHODS 558 A.3
MODIFIED EQUATION ANALYSIS FOR FIRST-ORDER UPWIND 559 B. EXAMPLE
COMPUTER IMPLEMENTATIONS 563 B.I APPENDIX: FORTRAN SUBROUTINE FOR THE
CHARACTERISTICS-BASED FLUX 563 B.2 FIFTH-ORDER WEIGHTED ENO METHOD 568
B.2.1 SUBROUTINE FOR FIFTH-ORDER WENO 568 B.2.2 SUBROUTINE FOR
FIFTH-ORDER WENO S THIRD-ORDER BASED FLUXES 570 B.2.3 SUBROUTINE
FIFTH-ORDER WENO SMOOTHNESS SENSORS . . 571 B.2.4 SUBROUTINE FIFTH-ORDER
WENO WEIGHTS 572 C. ACKNOWLEDGEMENTS: ILLUSTRATIONS REPRODUCED WITH
PERMIS- SION 575 REFERENCES 577 INDEX 615
|
| any_adam_object | 1 |
| author | Drikakis, Dimitris Rider, William |
| author_facet | Drikakis, Dimitris Rider, William |
| author_role | aut aut |
| author_sort | Drikakis, Dimitris |
| author_variant | d d dd w r wr |
| building | Verbundindex |
| bvnumber | BV019790795 |
| classification_rvk | UF 4050 |
| ctrlnum | (OCoLC)314669128 (DE-599)BVBBV019790795 |
| dewey-full | 620 530 |
| dewey-hundreds | 600 - Technology (Applied sciences) 500 - Natural sciences and mathematics |
| dewey-ones | 620 - Engineering and allied operations 530 - Physics |
| dewey-raw | 620 530 |
| dewey-search | 620 530 |
| dewey-sort | 3620 |
| dewey-tens | 620 - Engineering and allied operations 530 - Physics |
| discipline | Maschinenbau / Maschinenwesen Physik |
| format | Book |
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| id | DE-604.BV019790795 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T20:06:11Z |
| institution | BVB |
| isbn | 3540221360 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-013116564 |
| oclc_num | 314669128 |
| open_access_boolean | |
| owner | DE-703 DE-634 |
| owner_facet | DE-703 DE-634 |
| physical | XX, 622 S. graph. Darst. |
| publishDate | 2005 |
| publishDateSearch | 2005 |
| publishDateSort | 2005 |
| publisher | Springer |
| record_format | marc |
| series2 | Computational fluid and solid mechanics |
| spelling | Drikakis, Dimitris Verfasser aut High resolution methods for incompressible and low speed flows with ... 32 tables Dimitris Drikakis ; William Rider Berlin [u.a.] Springer 2005 XX, 622 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Computational fluid and solid mechanics Literaturverz. S. 577 - 613 Numerische Strömungssimulation (DE-588)4690080-9 gnd rswk-swf Inkompressible Strömung (DE-588)4129759-3 gnd rswk-swf Inkompressible Strömung (DE-588)4129759-3 s Numerische Strömungssimulation (DE-588)4690080-9 s DE-604 Rider, William Verfasser aut HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013116564&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Drikakis, Dimitris Rider, William High resolution methods for incompressible and low speed flows with ... 32 tables Numerische Strömungssimulation (DE-588)4690080-9 gnd Inkompressible Strömung (DE-588)4129759-3 gnd |
| subject_GND | (DE-588)4690080-9 (DE-588)4129759-3 |
| title | High resolution methods for incompressible and low speed flows with ... 32 tables |
| title_auth | High resolution methods for incompressible and low speed flows with ... 32 tables |
| title_exact_search | High resolution methods for incompressible and low speed flows with ... 32 tables |
| title_full | High resolution methods for incompressible and low speed flows with ... 32 tables Dimitris Drikakis ; William Rider |
| title_fullStr | High resolution methods for incompressible and low speed flows with ... 32 tables Dimitris Drikakis ; William Rider |
| title_full_unstemmed | High resolution methods for incompressible and low speed flows with ... 32 tables Dimitris Drikakis ; William Rider |
| title_short | High resolution methods for incompressible and low speed flows |
| title_sort | high resolution methods for incompressible and low speed flows with 32 tables |
| title_sub | with ... 32 tables |
| topic | Numerische Strömungssimulation (DE-588)4690080-9 gnd Inkompressible Strömung (DE-588)4129759-3 gnd |
| topic_facet | Numerische Strömungssimulation Inkompressible Strömung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013116564&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT drikakisdimitris highresolutionmethodsforincompressibleandlowspeedflowswith32tables AT riderwilliam highresolutionmethodsforincompressibleandlowspeedflowswith32tables |