Verfügbarkeit: Euler and Navier stokes solvers using multi-dimensional upwind schemes and multigrid acceleration

Euler and Navier stokes solvers using multi-dimensional upwind schemes and multigrid acceleration: results of the BRITE/EURAM projects AERO-CT89-0003 and AER2-CT92-00040, 1989 - 1995

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Format:	Buch
Sprache:	English
Veröffentlicht:	Braunschweig [u.a.] Vieweg 1997
Schriftenreihe:	Notes on numerical fluid mechanics 57
Schlagworte:	Lagrange equations > Numerical solutions Multigrid methods (Numerical analysis) Navier-Stokes equations > Numerical solutions Upwind-Verfahren Bewegungsgleichung Mehrgitterverfahren Navier-Stokes-Gleichung Aerodynamik Adaptives Gitter Eulersche Bewegungsgleichungen Forschungsbericht
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVI, 569 S. graph. Darst. 23 cm
ISBN:	3528069570

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Datensatz im Suchindex

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adam_text	CONTENTS PAGE COMPACT CELL VERTEX CONVECTION SCHEMES ON UNSTRUCTURED MESHES. (H. PAILLERE AND H. DECONINCK) . 1 1. INTRODUCTION . 1 2. LINEAR CONVECTION . 4 2.1. NOTATION AND DEFINITIONS . 4 2.1.1. GEOMETRY . 4 2.1.2. LINEAR AND NON-LINEAR SCHEMES . 5 2.1.3. CONVECTION MATRIX . 6 2.2. LOCAL PROPERTIES OF THE DISTRIBUTION . . 6 2.2.1. MULTI-DIMENSIONAL UPWINDING (Z/) . 6 2.2.2. POSITIVITY (P) . 7 2.2.3. LINEARITY PRESERVATION (P) . 8 2.2.4. CONTINUITY (C) . 9 2.2.5. GODUNOV ' S THEOREM (Q) . 9 3. LINEAR FLUCTUATION-SPLITTING SCHEMES . 10 3.1. LINEAR SCHEMES SATISFYING LINEARITY PRESERVATION . 10 3.1.1. THE LOW DIFFUSION SCHEMES (W, CP,C) . 10 3.1.2. THE LAX-WENDROFF SCHEME (P,C) . 11 3.1.3. THE SUPG SCHEME (P,C) . 12 3.1.4. THE UPWIND CONTROL VOLUME SCHEME OF GILES ET AL. (P, C) . 13 3.1.5. THE FLUX BALANCE SPLITTING SCHEME OF ROSSOW (P,C) . 13 3.2. LINEAR SCHEMES SATISFYING POSITIVITY . 14 3.2.1. THE N SCHEME (U, P, C) . 14 3.2.2. THE UPWIND FINITE VOLUME SCHEME (P, C) . 15 3.2.3. POSITIVITY DIAGRAM FOR LINEAR TWO-TARGET SCHEMES . 17 3.3. NUMERICAL RESULTS . 18 4. NON-LINEAR FLUCTUATION-SPLITTING SCHEMES . 19 4.1. LINEAR AND NON-LINEAR SPEEDS . 19 4.1.1. THE PETROV-GALERKIN SCHEME OF MIZUKAMI-HUGHES (M, P, CP) . 21 4.1.2. THE LEVEL SCHEME (W, P, CP) . 23 4.1.3. THE PSI SCHEME (M, P, CP, C) . 24 4.1.4. EXAMPLE OF ALGORITHM FOR UPWIND POSITIVE NON-LINEAR SCHEME . 25 4.1.5. THE SUPG SCHEME WITH ARTIFICIAL VISCOSITY (CP,C) . 26 4.2. NON-LINEAR SCHEMES REVISITED . 26 4.2.1. LIMITERS AND LINEARITY PRESERVATION: SIDILKOVER ' S ANALYSIS . 27 4.2.2. LIMITERS AND POSITIVITY: SIDILKOVER ' S ANALYSIS . 27 4.2.3. EQUIVALENCE BETWEEN PSI SCHEME AND MINMOD . 28 4.2.4. DISTRIBUTION COEFFICIENTS AND LIMITING . 29 4.2.5. THE ' LIMITED ' FINITE VOLUME SCHEME . 30 4.3. CONTINUITY OF THE NON-LINEAR SCHEMES . 30 4.4. NUMERICAL RESULTS: CONVECTION SKEWED TO THE MESH . 30 5. ACCURACY OF THE FLUCTUATION-SPLITTING SCHEMES . 33 5.1. NUMERICAL GRID CONVERGENCE STUDY . 33 CONTENTS (CONTINUED) PAGE 5.1.1. ORDER OF ACCURACY ON REGULAR MESHES . 33 5.1.2. EFFECT OF GRID DISTORTION . 34 6. NON-LINEAR CONSERVATION LAW AND CONSERVATIVE LINEARIZATIONS . 38 6.1. CONSERVATIVE LINEARIZATIONS . 38 6.1.1. DIMENSION BY DIMENSION EXTENSION 1D (A) . 40 6.1.2. DIMENSION BY DIMENSION LINEARIZATION 1D (V'U) . 40 6.1.3. LINEARIZATION (U) . 41 6.1.4. ABGRALL ' S LINEARIZATION A (U) . 41 6.2. NUMERICAL RESULTS . 42 7. CONCLUSIONS . 45 REFERENCES . 46 MULTIDIMENSIONAL UPWIND RESIDUAL DISTRIBUTION SCHEMES FOR THE 2D EULER EQUATIONS. (H. PAILLERE AND H. DECONINCK) . 51 1. INTRODUCTION . 51 2. RESIDUAL DISTRIBUTION METHOD FOR THE ID EULER EQUATIONS . 55 2.1. CHARACTERISTIC DECOMPOSITION . 56 2.2. CONSERVATIVE LINEARIZATION . 56 2.3. DISTRIBUTION SCHEME . 57 3. RESIDUAL DECOMPOSITION FOR THE 2D EULER EQUATIONS . 58 3.1. MULTIDIMENSIONAL WAVE MODELS . 58 3.2. CHARACTERISTIC SPLITTINGS IN 2D . 61 3.2.1. SIMILARITY TRANSFORMATIONS . 62 3.2.2. THE HYPERBOLIC/ELLIPTIC SPLITTING . 64 3.3. CONSERVATIVE LINEARIZATION . 66 4. RESIDUAL DISTRIBUTION SCHEMES . 67 4.1. SCALAR CONVECTION SCHEMES . 67 4.1.1. PROPERTIES OF THE DISTRIBUTION . 68 4.1.2. EXAMPLES OF FLUCTUATION-SPLITTING SCHEMES . 70 4.2. SYSTEM DISTRIBUTION SCHEMES . 70 4.2.1. DIAGONALIZABLE SYSTEMS . 71 4.2.2. NON-DIAGONALIZABLE SYSTEMS . 72 5. NUMERICAL RESULTS . 74 5.1. SUBSONIC FLOW OVER SINE BUMP . 74 5.1.1. NUMERICAL GRID CONVERGENCE STUDY . 75 5.2. SUBCRITICAL CYLINDER . 78 5.3. OBLIQUE SHOCK REFLECTION . 83 5.4. JET INTERACTION . 83 5.5. MULTI-ELEMENT AIRFOIL . 86 5.5.1. SUBCRITICAL FLOW (AFOO = 0.2) . 86 5.5.2. LOW MACH NUMBER FLOW (AFOO = 0.01) . 86 5.6. NACA0012 AIRFOIL . 90 5.6.1. SUBCRITICAL FLOW (AFOO = 0.63,2 ANGLE OF ATTACK) . 90 5.6.2. LOW MACH NUMBER FLOW (AFOO = 0.01) . 91 5.6.3. SUPERCRITICAL FLOW (AFOO = 0.85,1 ANGLE OF ATTACK) . 91 5.7. SUPERCRITICAL RAE-2822 AIRFOIL . 99 CONTENTS (CONTINUED) PAGE 5.8. SCRAMJET INLET . 102 5.9. VKI TURBINE . 102 6. CONCLUSIONS . 106 REFERENCES . 106 MATRIX DISTRIBUTION SCHEMES FOR THE SYSTEM OF EULER EQUATIONS. (E. VAN DER WEIDE AND H. DECONINCK) . 113 1. INTRODUCTION . 113 2. REVIEW OF SCALAR DISTRIBUTION SCHEMES . 114 3. SYSTEM RESIDUAL DISTRIBUTION SCHEMES . 118 4. LINEAR SECOND ORDER MATRIX DISTRIBUTION SCHEMES . 120 4.1. SYSTEM LAX-WENDROFF SCHEME . 120 4.2. SYSTEM SUPG-SCHEME . 121 4.3. SYSTEM LDA-SCHEME . 121 5. FIRST ORDER MATRIX DISTRIBUTION SCHEMES . 121 5.1. THE SYSTEM FIRST ORDER FV-SCHEME . 121 5.2. THE SYSTEM FIRST ORDER N-SCHEME . 122 6. NONLINEAR SECOND ORDER MATRIX DISTRIBUTION SCHEMES . 123 6.1. LIMITED FV-SCHEME (LFV) . 123 6.2. THE LIMITED SYSTEM N-SCHEME (LN OR PSI) . 124 7. PRECONDITIONING . 125 8. NUMERICAL RESULTS . 125 8.1. SUBSONIC NACA0012, M X = 0.63, A = 2 . 125 8.1.1. COMPARISON OF FIRST ORDER SCHEMES . 126 8.1.2. COMPARISON OF SECOND ORDER SYSTEM SCHEMES . 126 8.2. TRANSONIC FLOW OVER NACA0012 AIRFOIL . 130 8.2.1. TRANSONIC NACA0012, M X = 0.85, A = 1 . 130 8.2.2. TRANSONIC NACA0012, M X = 0.80, A = 1.25 . 130 8.3. FLOW OVER HYPERSONIC DOUBLE ELLIPSE, = 8.15, A = 30 . 132 8.4. LAMINAR AXISYMMETRIC VISCOUS FLOW OVER HYPERSONIC HYPERBOLOID FLARE, MOO = 6.73 . 133 9. CONCLUSION . 134 REFERENCES . 135 MULTIDIMENSIONAL UPWIND SCHEMES FOR THE 3D EULER EQUATIONS ON UNSTRUCTURED TETRAHEDRAL MESHES. (A. BONFIGLIOLI AND H. DECONINCK) . 141 1. INTRODUCTION . 141 2. FLUCTUATION SPLITTING SCHEMES IN 3D . 144 2.1. PROBLEM STATEMENT . 145 2.2. GEOMETRY AND NOTATION . 146 2.2.1. INFLOW AND OUTFLOW FACES . 148 2.2.2. UPSTREAM AND DOWNSTREAM VERTICES . 148 2.2.3. THE UPSTREAM AND DOWNSTREAM MANIFOLDS . 148 2.2.4. INFLOW AND OUTFLOW POINTS . 148 2.3. LINEAR AND NON-LINEAR SCHEMES . 151 2.4. PROPERTIES OF THE DISTRIBUTION . 151 CONTENTS (CONTINUED) PAGE 2.4.1. UPWINDING . 152 2.4.2. POSITIVITY . 152 2.4.3. LINEARITY PRESERVATION . 153 2.5. LINEAR SCHEMES . 153 2.5.1. LOW DIFFUSION A SCHEME . 153 2.5.2. N SCHEME . 154 2.5.3. FINITE VOLUME FIRST ORDER UPWIND SCHEME . 157 2.6. NON LINEAR SCHEMES . 159 2.6.1. PSI SCHEME . 159 3. THE COMPRESSIBLE EULER EQUATIONS . 160 3.1. EQUATIONS IN CONSERVED VARIABLES . 160 3.2. SYMMETRIZING VARIABLES . 162 3.3. CANONICAL VARIABLES . 162 4. CONSERVATIVE LINEARIZATION . 163 5. PRECONDITIONING . 164 5.1. HYPERBOLIC-HYBRID SPLITTING . 164 5.2. HYPERBOLIC-ELLIPTIC SPLITTING . 169 6. NUMERICAL RESULTS . 172 6.1. THREE DIMENSIONAL CHANNEL FLOW . 173 6.1.1. SUPERSONIC (M X = 1.4) FLOW . 173 6.1.2. SUBSONIC (AF M = 0.5) FLOW . 173 6.2. ONERA M6 WING . 177 6.3. HYPERSONIC FLOW OVER A BLUNT BODY . 180 7. CONCLUSIONS . 183 REFERENCES . 183 A VERY EFFICIENT LOCAL-ADAPTIVE MULTIGRID METHOD BASED ON A SIMPLE-WAVE DECOMPOSITION OF THE EULER EQUATIONS. (L.A. CATALANO, P. DE PALMA, M. NAPOLITANO AND G. PASCAZIO) . 187 1. INTRODUCTION . 190 2. SIMPLE-WAVE EULER SOLVER . 191 2.1. SIMPLE-WAVE DECOMPOSITION . 191 2.2. SCALAR FLUCTUATION SPLITTING SPACE DISCRETIZATION . 194 2.3. BOUNDARY CONDITIONS . 196 2.4. TIME INTEGRATION . 197 3. LIMITS OF THE FLUCTUATION SPLITTING SIMPLE-WAVE APPROACH . 198 3.1. SCALAR ADVECTION EQUATION . 198 3.2. EULER EQUATIONS . 201 4. A CONSERVATIVE TECHNIQUE FOR LOCALLY-REFINED AND PATCHED GRIDS . 202 4.1. MULTIGRID LOCAL-REFINEMENT STRATEGY . 202 4.2. PATCHED GRIDS . 204 5. RESULTS . 205 5.1. SOLID WALL BOUNDARY TREATMENT . 205 5.2. ANALYSIS OF THE VARIOUS MODELS AND SCHEMES . 207 5.3. ADAPTIVE LOCAL REFINEMENT AND PATCHED GRIDS . 210 6. CONCLUSIONS . 214 REFERENCES . 217 CONTENTS (CONTINUED) PAGE GENUINELY MULTIDIMENSIONAL UPWIND METHODS FOR ACCURATE AND EFFICIENT SOLUTIONS OF COMPRESSIBLE FLOWS. (L.A. CATALANO, P. DE PALMA, M. NAPOLITANO AND G. PASCAZIO) . 221 1. INTRODUCTION . 224 2. NAVIER-STOKES EQUATIONS . 225 3. CHARACTERISTIC DECOMPOSITION OF THE EULER EQUATIONS . 225 4. DISCRETIZATION OF THE INVISCID TERMS . 227 4.1. SCALAR FLUCTUATION SPLITTING SCHEMES . 227 4.2. MATRIX FLUCTUATION SPLITTING SCHEMES . 230 5. DISCRETIZATION OF THE VISCOUS TERMS . 232 6. BOUNDARY CONDITIONS . 233 7. MULTIGRID ADAPTIVE STRATEGY . 233 8. EULER RESULTS . 234 9. NAVIER-STOKES RESULTS . 243 10. CONCLUSIONS . 248 REFERENCES . 248 A GENERAL ANALYSIS OF 2D/3D MULTIDIMENSIONAL UPWIND CONVECTION SCHEMES. (P. VAN RANSBEECK AND CH. HIRSCH) . 251 1. INTRODUCTION . 251 2. 2D LINEAR CONVECTION EQUATION . 252 2.1. GENERAL NINE-POINT MOLECULES . 253 2.2. STREAMLINE COORDINATES . 254 2.3. CONDITIONS FOR SECOND ORDER ACCURACY . 255 2.3.1. STATIONARY CONVECTION EQUATION . 255 2.3.2. SCHEMES WITH NO CROSS-DIFFUSION . 255 2.3.3. UNSTEADY CONVECTION EQUATION . 255 2.3.4. SECOND ORDER ACCURACY FOR HOMOGENEOUS CONVECTION EQUATION. . 256 2.4. CELL-CENTERED FINITE VOLUME FORMULATION . 256 3. 2D UPWIND SCHEMES FOR 6-POINT MOLECULES . 257 3.1. TRIANGLE CONFIGURATION I . 257 3.2. TRIANGLE CONFIGURATION II . 258 3.3. GENERAL COMPACT SCHEMES WITH SECOND ORDER ACCURACY . 259 3.4. SECOND ORDER COMPACT SCHEMES IN SPACE AND TIME . 259 3.5. UPWIND SCHEMES WITH ZERO CROSS-DIFFUSION . 260 3.6. MONOTONICITY CONDITIONS FOR 6-POINT SCHEMES . 262 4. 2D UPWIND SCHEMES FOR 5-POINT MOLECULES . 262 4.1. CONTINUOUS ZERO CROSS-DIFFUSION SCHEME - CONFIG. 1 . 262 4.2. ZERO CROSS-DIFFUSION SCHEME WITH DM = DU = 0 - CONFIG. 1 . 263 4.3. LOW DIFFUSION SCHEME A - CONFIG. II . 264 4.4. LOW DIFFUSION SCHEME B. CONFIG. II . 265 5. 2D UPWIND SCHEMES FOR 4-POINT MOLECULES . 265 5.1. THE UNIQUE 4-POINT SCHEME WITH ZERO CROSS-DIFFUSION . 266 5.2. RAITHBY ' S SUDS SCHEME . 266 5.3. MONOTONE FIRST ORDER SCHEME WITH MINIMUM CROSS-DIFFUSION . 267 5.4. MONOTONE FIRST ORDER SCHEME WITH DU = 0 . 269 CONTENTS (CONTINUED) PAGE 6. 2D LINEAR UPWIND DISSIPATION MODELS . 269 6.1. INTRODUCTION . 269 6.2. DIMENSIONAL-SPLIT UPWIND DISSIPATION . 270 6.3. MULTIDIMENSIONAL 2D UPWIND DISSIPATION . 271 6.4. LINEAR MULTI-D UPWIND DISSIPATION . 272 6.4.1. SIX-POINT AND FIVE-POINT SCHEMES . 272 6.4.2. FOUR-POINT SCHEMES . 273 6.4.3. FIRST ORDER MULTI-D UPWIND DISSIPATION . 273 6.4.4. SECOND ORDER NON-MONOTONE MULTI-D UPWIND DISSIPATION . 273 6.4.5. MULTI-D UPWIND DISSIPATION - STENCIL . 274 7. 2D SECOND ORDER LED UPWIND DISSIPATION . 275 7.1. MULTIDIMENSIONAL LIMITER FUNCTIONS AND RATIOS . 275 7.2. LOCAL EXTREMUM DIMINISHING CONDITIONS . 277 7.3. EXAMPLES OF MULTI-D RATIOS . 278 7.4. CONTINUOUS SECOND ORDER LED DISSIPATION . 279 7.4.1. FIVE-POINT LINEAR CONTINUOUS DISSIPATION . 279 7.4.2. CONTINUOUS 2ND ORDER LED DISSIPATION . 279 8. 3D LINEAR CONVECTION EQUATION . 280 8.1. GENERAL 27-POINT MOLECULE . 281 8.2. CONSISTENCY CONDITIONS . 283 8.3. FORMULATION IN STREAMLINE COORDINATES . 284 8.4. CROSS-DIFFUSION TERMS . 285 8.5. CELL-CENTERED FINITE VOLUME APPROACH . 286 9. 3D UPWIND SCHEMES FOR 8-POINT MOLECULES . 287 9.1. 3D FIRST ORDER MONOTONE MINIMUM CROSS-DIFLFUSION SCHEME . 288 9.1.1. MONOTONICITY CONDITION . 288 9.1.2. MINIMUM CROSS-DIFLFUSION . 289 9.1.3. INTERPOLATION STRATEGY . 291 9.2. SUBCLASS OF ZERO CROSS-DIFLFUSION SCHEMES . 293 9.2.1. ZERO CROSS-DIFLFUSION CONDITION . 293 9.2.2. INTERPOLATION STRATEGY . 293 10. 3D LINEAR UPWIND DISSIPATION MODELS . 297 10.1. LINEAR MULTI-D UPWIND DISSIPATION . 297 10.1.1. LINEAR 8-POINT UPWIND SCHEMES . 297 10.1.2. MULTI-D UPWIND DISSIPATION - STENCIL . 298 10.1.3. FIRST ORDER UPWIND DISSIPATION . 298 10.1.4. SECOND ORDER UPWIND DISSIPATION . 298 11. 3D SECOND ORDER LED UPWIND DISSIPATION . 299 11.1. MULTIDIMENSIONAL LIMITER FUNCTIONS AND RATIOS . 299 11.2. MONOTONICITY CONDITIONS . 301 12. CONCLUSIONS . 301 REFERENCES . 302 MULTIDIMENSIONAL UPWIND SCHEMES FOR THE EULER/NAVIER-STOKES EQUATIONS ON STRUCTURED GRIDS. (P. VAN RANSBEECK AND CH. HIRSCH) . 305 1. INTRODUCTION . 305 CONTENTS (CONTINUED) PAGE 2. DIMENSIONAL-SPLIT UPWIND DISSIPATION . 306 3. MULTIDIMENSIONAL UPWIND DISSIPATION . 308 3.1. 2D SCALAR UPWIND DISSIPATION . 308 3.1.1. LINEAR 2D UPWIND SCHEMES . 309 3.1.2. NON-LINEAR 2D UPWIND SCHEMES . 311 3.2. 3D SCALAR UPWIND DISSIPATION . 312 3.2.1. LINEAR 3D UPWIND SCHEMES . 312 3.2.2. NON-LINEAR 3D UPWIND SCHEMES . 314 4. EXTENSION FOR THE EULER/NS EQUATIONS . 316 4.1. 2D CHARACTERISTIC DECOMPOSITION . 316 4.1.1. CHARACTERISTIC VARIABLES/COMPATIBILITY EQUATIONS . 316 4.1.2. PROPAGATION DIRECTIONS . 318 4.1.3. NUMERICAL FLUX FORMULATION . 320 4.2. 3D CHARACTERISTIC DECOMPOSITION . 321 5. RESULTS . 322 5.1. 2D SUPERSONIC LAVAL NOZZLE . 322 5.2. RAE2822 AIRFOIL (M = 0.75, A = 3) . 322 5.3. 2D FLAT PLATE (AF = 0.3, RE = 5.0 X 10 8 ) . 328 5.4. RAE2822 (M = 0.734, RE = 6.5 X 10 6 , A = 2.54) . 331 5.5. 3D SUPERSONIC COMER FLOW . 331 6. CONCLUSIONS . 333 REFERENCES . 335 MULTIDIMENSIONAL UPWIND SCHEME FOR THE PSEUDO-COMPRESSIBLE EULER EQUATIONS. (J.A. MICHELSEN) . 339 1. INTRODUCTION . 339 2. GOVERNING EQUATIONS . 340 3. EIGENVALUE ANALYSIS . 342 4. CHARACTERISTIC DECOMPOSITION . 344 4.1. STREAMWISE SPLITTING . 344 4.2. PSEUDO MACH ANGLE SPLITTING (PMA) . 345 4.3. STREAMWISE-CROSSWISE SPLITTING . ./ . 346 5. FLUCTUATION SPLITTING . ./ . 349 5.1. THE LDA SCHEME . 351 6. BOUNDARY CONDITIONS . 352 6.1. INLET CONDITION . 352 6.2. OUTLET CONDITION . 352 6.3. FARFIELD CONDITION . 353 6.4. WALL CONDITION . . . 353 7. TIMESTEPPING PROCEDURE . 354 8. RESULTS . 355 8.1. FLOW OVER SINE-BUMP . 355 8.2. FLOW OVER CIRCULAR CYLINDER . 356 9. CONCLUSION . 357 REFERENCES . 360 CONTENTS (CONTINUED) PAGE LOCAL GRID REFINEMENTS FOR THE NAVIER-STOKES EQUATIONS BASED ON TRUNCATION ERROR ESTIMATES. (P. EKSTRAND) . 363 1. INTRODUCTION . 363 2. GOVERNING EQUATIONS . 365 3. NUMERICAL METHODS . 368 3.1. SPATIAL DISCRETIZATION . 368 3.2. ADAPTIVE DISSIPATION . 369 3.3. RUNGE KUTTA TIME MARCHING . 371 3.4. MULTI GRID . 372 4. LOCAL REFINEMENT . 374 4.1. ADAPTIVE CRITERIA . 374 4.2. LOCAL REFINED MESH TYPES . 376 5. COMPUTATIONAL RESULTS . 378 5.1. ACCURACY . 378 5.2. EFFICIENCY . 387 5.3. CHOICE OF REFINEMENT PARAMETER . 389 6. CONCLUSION . 391 REFERENCES . 391 MULTIGRID FOR STEADY GAS DYNAMICS PROBLEMS. (P.W. HEMKER, B. KOREN, W.M. LIOEN, M. NOOL AND H.T.M. VAN DER MAAREL) . 393 1. A SOLUTION-ADAPTIVE MULTIGRID METHOD FOR THE STEADY EULER EQUATIONS . 393 1.1. MULTIGRID AND ITERATIVE DEFECT CORRECTION . 394 1.1.1. THE FIRST-ORDER FINITE VOLUME DISCRETISATION . 394 1.1.2. A LOCALLY NESTED SEQUENCE OF DISCRETISATIONS . 396 1.1.3. FAS AND FMG . 397 1.1.4. ITERATIVE DEFECT CORRECTION . 398 1.2. REFINEMENT CYCLES . 399 1.3. A SCALAR IMPLEMENTATION . 400 1.4. NUMERICAL RESULTS . 401 1.4.1. SHOCK REFLECTION . 401 1.4.2. TRANSONIC AIRFOIL FLOW . 406 2. EUVEL: AN EULER VECTOR EXTENSION LIBRARY . 408 2.1. EXTENSIONS TO BASIS . 408 2.2. VECTORISATION OF SOME OF THE EULER SUBROUTINES . 410 2.2.1. COMPUTATION OF THE FLUX, TRANSPORT AND THEIR DERIVATIVES . 410 2.2.2. RIGHT-HAND SIDE COMPUTATION . 411 2.2.3. THE RESIDUAL . 412 2.2.4. THE RELAXATION . 412 2.2.5. SOME OTHER VECTORISED SUBROUTINES . 413 2.3. VECTOR PERFORMANCE . 413 2.3.1. SHOCK REFLECTION . 413 2.3.2. TRANSONIC AIRFOIL FLOW . 413 2.4. CONCLUSIONS . 414 REFERENCES . 415 CONTENTS (CONTINUED) PAGE IMPROVING EULER COMPUTATIONS AT LOW MACH NUMBERS. (B. KOREN AND B. VAN LEER) . 419 1. PRECONDITIONING OF JACOBIANS . 420 1.1. INTRODUCTION . 420 1.2. EQUATIONS . 421 1.2.1. CONTINUOUS EQUATIONS . 421 1.2.2. DISCRETE EQUATIONS . 422 1.3. CONVERGENCE . 422 1.3.1. CONVERGENCE THROUGH ERROR SMOOTHING . 422 1.3.2. CONVERGENCE THROUGH ERROR CONVECTION . 423 1.4. ACCURACY . 424 1.5. PRECONDITIONING . 424 1.5.1. REMOVING STIFFNESS . 424 1.5.2. CONCERNING INACCURACY . 426 1.6. IMPLEMENTING PRECONDITIONING . 427 1.7. OPTIMIZING LOCALLY IMPLICIT ITERATION STEP . 428 1.7.1. QUALITATIVE OPTIMIZATION . 428 1.7.2. QUANTITATIVE OPTIMIZATION . 429 1.8. CONVERGENCE FOR PRECONDITIONED EQUATIONS . 430 1.8.1. ERROR SMOOTHING . 430 1.8.2. ERROR CONVECTION . 430 2. CONDITIONING OF ABSOLUTE EIGENVALUE MATRICES . 431 2.1. INTRODUCTION . 431 2.2. FIXES TO ILL CONDITIONS SUBSONIC, ABSOLUTE-EIGENVALUE MATRICES . 433 2.2.1. TRIMMING 2-D SINGULAR MATRIX . 433 2.2.2. ADDING 1-D AND 2-D REGULARIZING MATRICES . 434 2.3. SMOOTHING FOR ADDITIVE CONDITIONING . 436 2.4. APPLYING ADDITIVE CONDITIONING . 437 2.4.1. 2-D CONSERVATIVE IMPLEMENTATION . 437 2.4.2. NUMERICAL RESULTS . 438 3. CONCLUSIONS . 439 REFERENCES . 441 BASIS3, A DATA STRUCTURE FOR 3-DIMENSIONAL SPARSE GRIDS. (P.W. HEMKER AND P.M. DE ZEEUW) . 443 1. THE GEOMETRIC STRUCTURE . 443 1.1. COORDINATES, GRIDS AND CELL ELEMENTS . 443 1.2. PATCHES . 446 1.3. NEIGHBOURS AND KIDS . 449 1.4. GHOST PATCHES, THE ROOT PATCH . 449 1.5. LOCAL REFINEMENTS, BOUNDARIES . 450 2. THE DATA STRUCTURE . 452 2.1. PATCH NUMBERS AND POINTERS . 452 2.2. POINTERS AND COORDINATES: THE ARRAY PNTR . 453 2.3. PROPERTIES: THE ARRAY PPTY . 454 2.4. DATA CONTENTS: THE ARRAY DATA . 454 3. THE ACTIONS ON THE DATA STRUCTURE . 455 CONTENTS (CONTINUED) PAGE 3.1. CONSTRUCTION OF THE DATA STRUCTURE . 455 3.2. SCANNING THE PATCHES . 456 A APPENDIX: THE IMPLEMENTATION . 458 A.L. THE PASCAL PROTOTYPE . 458 A. 2. ABOUT THE FORTRAN IMPLEMENTATION . 473 A. 3. THE FORTRAN INCLUDE FILE . 474 A. 4. THE FORTRAN IMPLEMENTATION MANUAL . 475 FINITE VOLUME MULTIGRID FOR 3D-PROBLEMS. (P.W. HEMKER) . 485 1. INTRODUCTION . 485 2. FINITE VOLUME SPARSE GRIDS . 486 2.1. A MULTI-D MULTIRESOLUTION ANALYSIS . 486 2.2. PIECEWISE CONSTANT FUNCTION SPACES . 486 2.3. MORE-DIMENSIONAL WAVELETS . 487 2.4. APPROXIMATION RESULTS . 490 3. A MULTIGRID ALGORITHM IN THREE DIMENSIONS . 493 4. CONVERGENCE ANALYSIS . 496 4.1. FOURIER ANALYSIS FOR BOX GRIDS . 497 4.2. CONVERGENCE ANALYSIS RESULTS . 504 5. CONCLUSION . . . 508 REFERENCES . 508 MULTIPLE SEMI-COARSENING TECHNIQUES. (P.M. DE ZEEUW) . 511 1. INTRODUCTION . 511 2. THE MULTI-LEVEL METHOD ON A GRID OF GRIDS . 513 2.1. GRIDS OF GRIDS . 513 2.2. RESTRICTION OPERATORS . 516 2.3. PROLONGATION OPERATORS . 517 2.4. COHERENCE . 521 2.5. GALERKIN APPROXIMATIONS . 525 2.6. SAWTOOTH MULTI-LEVEL METHOD . 529 2.7. THE ACCURACY CONDITION FOR GRID TRANSFER OPERATORS . 532 2.8. THE SMOOTHING METHOD . 533 2.9. NUMERICAL RESULTS . 533 3. INCOMPLETE GRID OF GRIDS . 539 3.1. SPARSE GRIDS . 539 3.2. NUMERICAL RESULTS . 541 3.3. EXPLANATION OF RESULTS . 541 3.4. REMEDIES AND ALTERNATIVES . 541 3.5. HIERARCHICAL BASIS FOR FINITE VOLUMES . 542 4. CONCLUSIONS . 543 REFERENCES . 543 CONTENTS (CONTINUED) PAGE SEMI-COARSENING IN THREE DIRECTIONS FOR EULER-FLOW COMPUTATIONS IN THREE DIMENSIONS. (B. KOREN, P.W. HEMKER AND P.M. DE ZEEUW) . 547 1. INTRODUCTION . 547 2. EQUATIONS . 549 2.1. CONTINUOUS EQUATIONS . 549 2.2. DISCRETIZED EQUATIONS . 550 3. MULTIGRID METHODS . 551 3.1. STANDARD MULTIGRID . 551 3.2. MULTIPLE SEMI-COARSENED MULTIGRID METHOD . 552 4. NUMERICAL RESULTS . 553 4.1. TEST CASE . 553 4.2. CONVERGENCE RESULTS . 553 5. OUTLOOK . 553 REFERENCES . 554 A. APPENDIX: PROLONGATION OF SOLUTION . 556 B. APPENDIX: RESTRICTION OF DEFECTS . 558 C. APPENDIX: PROLONGATION OF SOLUTION CORRECTIONS . 559 CONTACT PERSONS . 569
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physical	XVI, 569 S. graph. Darst. 23 cm
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spelling	Euler and Navier stokes solvers using multi-dimensional upwind schemes and multigrid acceleration results of the BRITE/EURAM projects AERO-CT89-0003 and AER2-CT92-00040, 1989 - 1995 ed. by Herman Deconinck and Barry Koren Braunschweig [u.a.] Vieweg 1997 XVI, 569 S. graph. Darst. 23 cm txt rdacontent n rdamedia nc rdacarrier Notes on numerical fluid mechanics 57 Lagrange equations Numerical solutions Multigrid methods (Numerical analysis) Navier-Stokes equations Numerical solutions Upwind-Verfahren (DE-588)4482840-8 gnd rswk-swf Bewegungsgleichung (DE-588)4006321-5 gnd rswk-swf Mehrgitterverfahren (DE-588)4038376-3 gnd rswk-swf Navier-Stokes-Gleichung (DE-588)4041456-5 gnd rswk-swf Aerodynamik (DE-588)4000589-6 gnd rswk-swf Adaptives Gitter (DE-588)4333769-7 gnd rswk-swf Eulersche Bewegungsgleichungen (DE-588)4219070-8 gnd rswk-swf 1\p (DE-588)4155043-2 Forschungsbericht gnd-content Navier-Stokes-Gleichung (DE-588)4041456-5 s Mehrgitterverfahren (DE-588)4038376-3 s Adaptives Gitter (DE-588)4333769-7 s DE-604 Eulersche Bewegungsgleichungen (DE-588)4219070-8 s Upwind-Verfahren (DE-588)4482840-8 s Bewegungsgleichung (DE-588)4006321-5 s 2\p DE-604 Aerodynamik (DE-588)4000589-6 s 3\p DE-604 Deconinck, Herman Sonstige oth Notes on numerical fluid mechanics 57 (DE-604)BV000898664 57 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007613092&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 3\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Euler and Navier stokes solvers using multi-dimensional upwind schemes and multigrid acceleration results of the BRITE/EURAM projects AERO-CT89-0003 and AER2-CT92-00040, 1989 - 1995 Notes on numerical fluid mechanics Lagrange equations Numerical solutions Multigrid methods (Numerical analysis) Navier-Stokes equations Numerical solutions Upwind-Verfahren (DE-588)4482840-8 gnd Bewegungsgleichung (DE-588)4006321-5 gnd Mehrgitterverfahren (DE-588)4038376-3 gnd Navier-Stokes-Gleichung (DE-588)4041456-5 gnd Aerodynamik (DE-588)4000589-6 gnd Adaptives Gitter (DE-588)4333769-7 gnd Eulersche Bewegungsgleichungen (DE-588)4219070-8 gnd
subject_GND	(DE-588)4482840-8 (DE-588)4006321-5 (DE-588)4038376-3 (DE-588)4041456-5 (DE-588)4000589-6 (DE-588)4333769-7 (DE-588)4219070-8 (DE-588)4155043-2
title	Euler and Navier stokes solvers using multi-dimensional upwind schemes and multigrid acceleration results of the BRITE/EURAM projects AERO-CT89-0003 and AER2-CT92-00040, 1989 - 1995
title_auth	Euler and Navier stokes solvers using multi-dimensional upwind schemes and multigrid acceleration results of the BRITE/EURAM projects AERO-CT89-0003 and AER2-CT92-00040, 1989 - 1995
title_exact_search	Euler and Navier stokes solvers using multi-dimensional upwind schemes and multigrid acceleration results of the BRITE/EURAM projects AERO-CT89-0003 and AER2-CT92-00040, 1989 - 1995
title_full	Euler and Navier stokes solvers using multi-dimensional upwind schemes and multigrid acceleration results of the BRITE/EURAM projects AERO-CT89-0003 and AER2-CT92-00040, 1989 - 1995 ed. by Herman Deconinck and Barry Koren
title_fullStr	Euler and Navier stokes solvers using multi-dimensional upwind schemes and multigrid acceleration results of the BRITE/EURAM projects AERO-CT89-0003 and AER2-CT92-00040, 1989 - 1995 ed. by Herman Deconinck and Barry Koren
title_full_unstemmed	Euler and Navier stokes solvers using multi-dimensional upwind schemes and multigrid acceleration results of the BRITE/EURAM projects AERO-CT89-0003 and AER2-CT92-00040, 1989 - 1995 ed. by Herman Deconinck and Barry Koren
title_short	Euler and Navier stokes solvers using multi-dimensional upwind schemes and multigrid acceleration
title_sort	euler and navier stokes solvers using multi dimensional upwind schemes and multigrid acceleration results of the brite euram projects aero ct89 0003 and aer2 ct92 00040 1989 1995
title_sub	results of the BRITE/EURAM projects AERO-CT89-0003 and AER2-CT92-00040, 1989 - 1995
topic	Lagrange equations Numerical solutions Multigrid methods (Numerical analysis) Navier-Stokes equations Numerical solutions Upwind-Verfahren (DE-588)4482840-8 gnd Bewegungsgleichung (DE-588)4006321-5 gnd Mehrgitterverfahren (DE-588)4038376-3 gnd Navier-Stokes-Gleichung (DE-588)4041456-5 gnd Aerodynamik (DE-588)4000589-6 gnd Adaptives Gitter (DE-588)4333769-7 gnd Eulersche Bewegungsgleichungen (DE-588)4219070-8 gnd
topic_facet	Lagrange equations Numerical solutions Multigrid methods (Numerical analysis) Navier-Stokes equations Numerical solutions Upwind-Verfahren Bewegungsgleichung Mehrgitterverfahren Navier-Stokes-Gleichung Aerodynamik Adaptives Gitter Eulersche Bewegungsgleichungen Forschungsbericht
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007613092&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV000898664
work_keys_str_mv	AT deconinckherman eulerandnavierstokessolversusingmultidimensionalupwindschemesandmultigridaccelerationresultsofthebriteeuramprojectsaeroct890003andaer2ct920004019891995

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