Verfügbarkeit: An introduction to granular flow

An introduction to granular flow:

Gespeichert in:

Bibliographische Detailangaben
Hauptverfasser:	Rao, K. Kesava (VerfasserIn), Nott, Prabhu R. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Cambridge, Mass. Cambridge University Press 2008
Ausgabe:	1. publ.
Schriftenreihe:	Cambridge series in chemical engineering
Schlagworte:	Granular materials > Fluid dynamics Granulärer Stoff Strömungsmechanik
Online-Zugang:	Publisher description Table of contents only Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XXI, 490 S. Ill., graph. Darst.
ISBN:	9780521571661

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Datensatz im Suchindex

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adam_text	AN INTRODUCTION TO GRANULAR FLOW K. KESAVA RAO PRABHU R. NOTT INDIAN INSTITUTE OF SCIENCE INDIAN INSTITUTE OF SCIENCE CAMBRIDGE UNIVERSITY PRESS CONTENTS PREFACE PAGE XIII NOTATION XV 1 INTRODUCTION I I. I EXAMPLES OF GRANULAR STATICS AND FLOW 2 1.2 INTERPARTICLE FORCES I I 1.2.1 ELECTROSTATIC AND VAN DER WAALS FORCES I I 1.2.2 LIQUID BRIDGE OR CAPILLARY FORCES 14 1.2.3 CONTACT FORCES 16 1.2.4 INTERPARTICLE FORCES IN SATURATED GRANULAR MATERIALS 19 1.3 PACKING CHARACTERISTICS 19 ) 1.3.1 REGULAR PACKINGS 21 1.3.2 RANDOM PACKINGS 22 1.4 MODELS 22 1.4.1 DISCRETE MODELS 23 1.4.2 CONTINUUM MODELS 28 1.5 BALANCE LAWS FOR CONTINUUM MODELS 29 1.5.1 THE VELOCITY 30 1.5.2 INTEGRAL AND DIFFERENTIAL BALANCES 31 1.5.3 THE MASS BALANCE 32 1.5.4 THE STRESS VECTOR AND THE STRESS TENSOR , 32 1.5.5 THE LINEAR MOMENTUM BALANCE 33 1.5.6 THE ANGULAR MOMENTUM BALANCE . 34 1.5.7 THE ENERGY BALANCE 34 1.6 STATICS 36 1.7 FLUID-PARTICLE INTERACTION .. 36 1.8 SUMMARY F ~ 40 2 THEORY FOR SLOW PLANE FLOW 54 2.1 QUALITATIVE OBSERVATIONS 55 2.2 THE WALL YIELD CONDITION 58 2.3 THE JANSSEN SOLUTION FOR THE STATIC STRESS FIELD IN A BIN 60 2.4 THE COULOMB YIELD CONDITION 61 2.5 GENERALIZATION OF THE COULOMB YIELD CONDITION 62 2.5.1 INVARIANTS AND PRINCIPAL STRESSES 63 2.6 THE MOHR-COULOMB YIELD CONDITION 65 VII CONTENTS 2.7 THE MOHR S CIRCLE FOR THE TWO-DIMENSIONAL STRESS TENSOR 65 2.8 THE RELATION BETWEEN THE COULOMB AND MOHR-COULOMB YIELD CONDITIONS 68 2.9 ACTIVE AND PASSIVE STATES OF STRESS AND THE VALUE OF THE JANSSEN K-FACTOR 69 2.10 SHEAR TESTS 70 2.10.1 THE CRITICAL STATE 73 2.10.2 THE HVORSLEV SURFACE 75 2.10.3 THE ROSCOE SURFACE 77 2.10.4 THE YIELD SURFACE 77 2.11 YIELD SURFACES IN 7\|- 2.12 YIELD LOCI IN THE A -AI AND A-X PLANES 81 2.13 FLOW RULES 82 2.13.1 THE LEVY-MISES AND THE PRANDTL-REUSS EQUATIONS 84 2.13.2 THE COAXIALITY CONDITION 87 2.13.3 THE PLASTIC POTENTIAL 91 2.13.4 POSITIVE DISSIPATION 91 2.13.5 ASSOCIATED AND NONASSOCIATED FLOW RULES 92 2.14 EQUATIONS FOR PLANE FLOW 93 2.14.1 THE MOHR S CIRCLE FOR THE RATE OF DEFORMATION TENSOR 93 2.14.2 THE COAXIALITY CONDITION 94 2.14.3 THE FLOW RULE 95 2.14.4 IMPLICATIONS OF THE ASSOCIATED FLOW RULE 96 2.14.5 ROWE S STRESS-DILATANCY RELATION 96 2.14.6 SUMMARY OF THE GOVERNING EQUATIONS FOR PLANE FLOW 100 2.15 THE RELATION BETWEEN YIELD LOCI IN THE N-T AND A-X PLANES 1 00 2.16 THE DOUBLE-SHEARING MODEL 101 2.17 SUMMARY 105 FLOW THROUGH HOPPERS I 16 3.1 EXPERIMENTAL OBSERVATIONS I 16 3.1.1 FLOW RATE 116 3.1.2 KINEMATICS 121 3.1.3 SOLIDS FRACTION PROFILES 122 3.2 THEORY FOR STEADY, PLANE FLOW 1 23 3.2.1 THE CRITICAL STATE APPROXIMATION I 1 23 3.3 THE SMOOTH WALL, RADIAL GRAVITY (SWRQ PROBLEM 1 25 3.4 THE EFFECT OF WALL ROUGHNESS . : 131 3.5 SOLUTIONS WITH ALLOWANCE FOR ROUGH WALLS AND VERTICAL GRAVITY 1 34 3.5.1 THE BRENNEN-PEARCE SOLUTION 1 34 3.5.2 THE RADIAL STRESS AND VELOCITY FIELDS / 138 3.5.3 LINEARIZED STABILITY ANALYSIS / 141 3.5.4 DOWNWARD INTEGRATION FROM THE RADIAL FIELDS 143 3.5.5 THE SUCCESSIVE APPROXIMATION PROCEDURE 1 45 3.6 A RE-EXAMINATION OF THE EXIT CONDITION 149 3.7 AN ALTERNATIVE EXIT CONDITION 1 52 3.8 THE SMOOTH WALL, RADIAL GRAVITY PROBLEM FOR COMPRESSIBLE FLOW 1 54 3.9 SUMMARY 160 FLOW THROUGH WEDGE-SHAPED BUNKERS 166 4. 1 EXPERIMENTAL OBSERVATIONS 1 66 VIII CONTENTS 4.1.1 FLOW REGIMES 1 66 4.1.2 KINEMATICS 166 4.1.3 WALL STRESSES - 175 4.1.4 BINS 1 78 4.2 MODELS FOR BUNKER FLOW 182 4.2.1 THE BIN SECTION 1 83 4.2.2 THE TRANSITION REGION 190 4.2.3 THE HOPPER SECTION 203 4.3 SUMMARY 208 THEORY FOR SLOW THREE-DIMENSIONAL FLOW 213 5.1 CONSTITUTIVE EQUATIONS INVOLVING A YIELD CONDITION 213 . I THE YIELD CONDITION 213 .2 SYMMETRY CONSIDERATIONS 220 .3 CONVENTIONAL TRIAXIAL TESTS 220 .4 ISOTROPIC COMPRESSION TESTS 222 .5 COMPRESSION TESTS 223 .6 CUBICAL TRIAXIAL TESTS 225 .7 COMPARISON OF YIELD CONDITIONS WITH DATA 226 .8 FLOW RULES 226 .9 DATA RELATED TO FLOW RULES 228 . 10 STEADY, FULLY DEVELOPED FLOW OF A RIGID-PLASTIC MATERIAL 22 9 . 11 ONE-DIMENSIONAL DEFORMATION OF A RIGID-PLASTIC MATERIAL 230 5.2 CONSTITUTIVE EQUATIONS THAT DO NOT INVOLVE A YIELD CONDITION 233 5.2.1 HYPOELASTIC AND HYPOPLASTIC MODELS 233 5.2.2 SOME FEATURES OF (5.66) 235 5.2.3 STEADY, FULLY DEVELOPED FLOW OF A HYPOELASTIC MATERIAL 236 5.2.4 ONE-DIMENSIONAL DEFORMATION OF A HYPOELASTIC MATERIAL 236 5.3 SUMMARY 239 6 FLOW THROUGH AXISYMMETRIC HOPPERS AND BUNKERS 249 6.1 EXPERIMENTAL OBSERVATIONS 249 6.1.1 FLOW RATE 249 6.1.2 VELOCITY PROFILES 249 6.1.3 DENSITY PROFILES 25 1 6.1.4 FLOW PATTERNS , 253 6.1.5 STRESS PROFILES 256 6.2 THEORY FOR STEADY, AXISYMMETRIC FLOW THROUGH A. HOPPER 259 6.2.1 THE HAAR-VON KARMAN HYPOTHESIS * 26 1 6.2.2 THE RADIAL STRESS AND VELOCITY FIELDS FOR THE MOHR-COULOMB YIELD CONDITION AND THE,HAAR-VON KARMAN HYPOTHESIS / 264 6.2.3 THE DRUCKER-PRAGER YIELD CONDITION ARID LEVY S FLOW RULE 266 6.2.4 COMPARISON OF PREDICTED AND MEASURED VELOCITY PROFILES 26 9 6.2.5 CRITERIA FOR MASS FLOW 269 6.3 A HYBRID HYPOPLASTIC-VISCOUS MODEL 273 6.4 THE KINEMATIC MODEL FOR BATCH DISCHARGE FROM A BIN 276 6.5 SUMMARY 280 7 THEORY FOR RAPID FLOW OF SMOOTH, INELASTIC PARTICLES 285 7. 1 PRELIMINARIES AND SCALING 285 CONTENTS 7.1. 1 MODEL FOR INELASTIC COLLISIONS 288 7.1.2 HYDRODYNAMIC DESCRIPTION OF RAPID GRANULAR FLOWS 289 7.2 HEURISTIC HYDRODYNAMIC THEORY FOR HIGH-DENSITY FLOWS 290 7.2.1 APPLICATION TO UNIFORM PLANE SHEAR 292 7.3 KINETIC THEORY FOR A GRANULAR GAS OF SMOOTH INELASTIC PARTICLES 295 7.3.1 STATISTICAL PRELIMINARIES 295 7.3.2 THE EVOLUTION OF F ! 297 7.3.3 THE EQUILIBRIUM DISTRIBUTION FUNCTION 300 7.3.4 THE DEPARTURE FROM EQUILIBRIUM 301 7.3.5 MAXWELL TRANSPORT EQUATION 302 7.3.6 THE EQUATIONS OF MOTION 305 7.3.7 THE CHAPMAN-ENSKOG EXPANSION 30 7 7.3.8 CONSTITUTIVE RELATIONS AT LEADING ORDER 310 7.3.9 DISTRIBUTION FUNCTION AT O(K) 311 7.3.10 SOLUTION FOR O K 316 7.3.11 CONSTITUTIVE RELATIONS AT O(K)- 319 7.3.12 DISTRIBUTION FUNCTION AND CONSTITUTIVE RELATIONS AT O(E) 321 7.3.13 CONSTITUTIVE RELATIONS TO FIRST ORDER IN K AND E 323 7.4 ANISOTROPY OF THE MICROSTRUCTURE 325 7.5 EXTENSION TO GRANULAR MIXTURES 326 7.6 SUMMARY AND DISCUSSION 328 ANALYSIS OF RAPID FLOW IN SIMPLE GEOMETRIES 331 8.1 BOUNDARY CONDITIONS AT SOLID WALLS 33 I 8.1.1 HEURISTIC THEORY 332 8.1.2 KINETIC THEORY 334 8.2 PLANE COUETTE FLOW 339 8.2.1 PREDICTIONS OF THE HIGH-DENSITY THEORY 340 8.2.2 SOME FEATURES OF THE HIGH-DENSITY SOLUTIONS 345 8.2.3 PREDICTIONS OF THE KINETIC THEORY 346 8.3 FLOW IN INCLINED CHUTES 349 8.3.1 SOME EXPERIMENTAL OBSERVATIONS OF CHUTE FLOW 35 1 8.3.2 ANALYSIS OF STEADY, FULLY DEVELOPED FLOW 355 8.3.3 HIGH-DENSITY THEORY 35 6 8.3.4 SOME FEATURES OF THE HIGH-DENSITY SOLUTIONS 358 8.3.5 PREDICTIONS OF THE KINETIC THEORY 359 8.4 STABILITY OF RAPID SHEAR FLOWS * 366 8.4.1 STABILITY OF UNBOUNDED PLANE SHEAR FLOW 366 8.4.2 STABILITY OF PLANE COUETTE FLOW 369 8.5 SUMMARY ,* 371 THEORY FOR RAPID FLOW OF ROUGH, INELASTIC PARTICLES 374 9.1 COLLISION MODELS FOR ROUGH PARTICLES 375 9.2 EQUATIONS OF MOTION FOR A GRANULAR GAS OF ROUGH, INELASTIC SPHERES 378 9.3 THE VELOCITY DISTRIBUTION FUNCTION 382 9.3.1 NEARLY ELASTIC, NEARLY PERFECTLY ROUGH PARTICLES 382 9.3.2 NEARLY ELASTIC, NEARLY SMOOTH PARTICLES 386 9.4 CONSTITUTIVE RELATIONS UP TO FIRST ORDER IN K, E, AND E 389 9.4.1 NEARLY ELASTIC, NEARLY PERFECTLY ROUGH PARTICLES 389 CONTENTS 9.4.2 NEARLY ELASTIC, NEARLY SMOOTH PARTICLES 390 9.5 SUMMARY 392 10 HYBRID THEORIES 394 10.1 THE FRICTIONAL-KINETIC MODEL 395 10.2 APPLICATION TO FLOW IN CHUTES 39 6 10.3 OTHER HYBRID MODELS 400 10.4 SUMMARY 401 APPENDIX A: OPERATIONS WITH VECTORS AND TENSORS 403 A. I VECTORS 403 A.2 THE SUMMATION CONVENTION 404 A.3 THE SCALAR PRODUCT OF TWO VECTORS 404 A.4 SECOND-ORDER TENSORS 405 A.4.1 THE UNIT TENSOR 406 A.4.2 THE TRACE OF A SECOND-ORDER TENSOR 406 A.5 CARTESIAN TENSOR NOTATION 407 A.6 THIRD AND HIGHER ORDER TENSORS 407 A.6.1 THE ALTERNATING TENSOR 407 A.7 OPERATIONS WITH VECTORS AND TENSORS 407 A.7.1 THE VECTOR PRODUCT OF TWO VECTORS 407 A.7.2 THE PRODUCT OF TWO SECOND-ORDER TENSORS 408 A.7.3 THE SCALAR PRODUCT OF TWO SECOND-ORDER TENSORS 408 A.7.4 THE TRANSPOSE OF A TENSOR 409 A.7.5 THE INVERSE OF A SECOND-ORDER TENSOR 409 A.7.6 THE DETERMINANT OF A SECOND-ORDER TENSOR 409 A.7.7 ORTHOGONAL SECOND-ORDER TENSORS 410 A.7.8 THE GRADIENT OPERATOR 41 I A.7.9 THE GRADIENT OF SCALARS AND VECTORS 41 I A.7.10 THE DIVERGENCE OF A SECOND-ORDER TENSOR 412 A.7.11 THE CURL OF A VECTOR 412 A.8 EQUATIONS IN ORTHOGONAL CURVILINEAR COORDINATE SYSTEMS 412 A.8.1 CYLINDRICAL COORDINATES 412 A.8.2 SPHERICAL COORDINATES 414 APPENDIX B: THE STRESS TENSOR 418 APPENDIX C: HYPERBOLIC PARTIAL DIFFERENTIAL EQUATIONS OF FIRST ORDER . 420 C. I SOLUTION BY THE METHOD OF CHARACTERISTICS 424 APPENDIX D: JUMP BALANCES .- 428 D.I THE JUMP MASS BALANCE / 428 APPENDIX E: DISCONTINUOUS SOLUTIONS OF HYPERBOLIC EQUATIONS 430 E. I WEAK SOLUTION 430 E.2 JUMP CONDITIONS 431 E.3 JUMP CONDITIONS FOR LINEAR EQUATIONS 432 APPENDIX F: PROOF OF THE COAXIALITY CONDITION 434 APPENDIX G: MATERIAL FRAME INDIFFERENCE 439 G. I CHANGE OF FRAME 439 XI CONTENTS G.2 FRAME INDIFFERENT SCALARS, VECTORS, AND TENSORS 441 G.2.1 SCALARS 441 G.2.2 VECTORS 441 G.2.3 SECOND-ORDER TENSORS 442 G.3 THE PRINCIPLE OF MATERIAL FRAME INDIFFERENCE 443 G.4 AN ALTERNATIVE INTERPRETATION OF A CHANGE OF FRAME 44 3 APPENDIX H: THE EVALUATION OF SOME INTEGRALS 449 H. I INTEGRATION OVER K 449 H.2 INTEGRATION OVER K FOR BOUNDARY CONDITIONS 450 H.3 CHANGE OF VARIABLES 451 H.4 VOLUME INTEGRALS 452 H.5 GAUSSIAN INTEGRALS 453 APPENDIX I: A BRIEF INTRODUCTION TO LINEAR STABILITY THEORY 454 APPENDIX J: PSEUDO SCALARS, VECTORS, AND TENSORS 456 APPENDIX K: ANSWERS TO SELECTED PROBLEMS 459 REFERENCES 463 INDEX 483 XII
adam_txt	AN INTRODUCTION TO GRANULAR FLOW K. KESAVA RAO PRABHU R. NOTT INDIAN INSTITUTE OF SCIENCE INDIAN INSTITUTE OF SCIENCE CAMBRIDGE UNIVERSITY PRESS CONTENTS PREFACE PAGE XIII NOTATION XV 1 INTRODUCTION I I. I EXAMPLES OF GRANULAR STATICS AND FLOW 2 1.2 INTERPARTICLE FORCES I I 1.2.1 ELECTROSTATIC AND VAN DER WAALS FORCES I I 1.2.2 LIQUID BRIDGE OR CAPILLARY FORCES 14 1.2.3 CONTACT FORCES 16 1.2.4 INTERPARTICLE FORCES IN SATURATED GRANULAR MATERIALS 19 1.3 PACKING CHARACTERISTICS 19 ) 1.3.1 REGULAR PACKINGS 21 1.3.2 RANDOM PACKINGS 22 1.4 MODELS 22 1.4.1 DISCRETE MODELS 23 1.4.2 CONTINUUM MODELS 28 1.5 BALANCE LAWS FOR CONTINUUM MODELS 29 1.5.1 THE VELOCITY 30 1.5.2 INTEGRAL AND DIFFERENTIAL BALANCES 31 1.5.3 THE MASS BALANCE 32 1.5.4 THE STRESS VECTOR AND THE STRESS TENSOR , 32 1.5.5 THE LINEAR MOMENTUM BALANCE 33 1.5.6 THE ANGULAR MOMENTUM BALANCE . 34 1.5.7 THE ENERGY BALANCE 34 1.6 STATICS 36 1.7 FLUID-PARTICLE INTERACTION . 36 1.8 SUMMARY F ~ 40 2 THEORY FOR SLOW PLANE FLOW 54 2.1 QUALITATIVE OBSERVATIONS 55 2.2 THE WALL YIELD CONDITION 58 2.3 THE JANSSEN SOLUTION FOR THE STATIC STRESS FIELD IN A BIN 60 2.4 THE COULOMB YIELD CONDITION 61 2.5 GENERALIZATION OF THE COULOMB YIELD CONDITION 62 2.5.1 INVARIANTS AND PRINCIPAL STRESSES 63 2.6 THE MOHR-COULOMB YIELD CONDITION 65 VII CONTENTS 2.7 THE MOHR'S CIRCLE FOR THE TWO-DIMENSIONAL STRESS TENSOR 65 2.8 THE RELATION BETWEEN THE COULOMB AND MOHR-COULOMB YIELD CONDITIONS 68 2.9 ACTIVE AND PASSIVE STATES OF STRESS AND THE VALUE OF THE JANSSEN K-FACTOR 69 2.10 SHEAR TESTS 70 2.10.1 THE CRITICAL STATE 73 2.10.2 THE HVORSLEV SURFACE 75 2.10.3 THE ROSCOE SURFACE 77 2.10.4 THE YIELD SURFACE 77 2.11 YIELD SURFACES IN 7\|- 2.12 YIELD LOCI IN THE A\-AI AND A-X PLANES 81 2.13 FLOW RULES 82 2.13.1 THE LEVY-MISES AND THE PRANDTL-REUSS EQUATIONS 84 2.13.2 THE COAXIALITY CONDITION 87 2.13.3 THE PLASTIC POTENTIAL 91 2.13.4 POSITIVE DISSIPATION 91 2.13.5 ASSOCIATED AND NONASSOCIATED FLOW RULES 92 2.14 EQUATIONS FOR PLANE FLOW 93 2.14.1 THE MOHR'S CIRCLE FOR THE RATE OF DEFORMATION TENSOR 93 2.14.2 THE COAXIALITY CONDITION 94 2.14.3 THE FLOW RULE 95 2.14.4 IMPLICATIONS OF THE ASSOCIATED FLOW RULE 96 2.14.5 ROWE'S STRESS-DILATANCY RELATION 96 2.14.6 SUMMARY OF THE GOVERNING EQUATIONS FOR PLANE FLOW 100 2.15 THE RELATION BETWEEN YIELD LOCI IN THE N-T AND A-X PLANES 1 00 2.16 THE DOUBLE-SHEARING MODEL 101 2.17 SUMMARY 105 FLOW THROUGH HOPPERS I 16 3.1 EXPERIMENTAL OBSERVATIONS I 16 3.1.1 FLOW RATE 116 3.1.2 KINEMATICS 121 3.1.3 SOLIDS FRACTION PROFILES 122 3.2 THEORY FOR STEADY, PLANE FLOW 1 23 3.2.1 THE CRITICAL STATE APPROXIMATION I 1 23 3.3 THE SMOOTH WALL, RADIAL GRAVITY (SWRQ PROBLEM 1 25 3.4 THE EFFECT OF WALL ROUGHNESS . : 131 3.5 SOLUTIONS WITH ALLOWANCE FOR ROUGH WALLS AND VERTICAL GRAVITY 1 34 3.5.1 THE BRENNEN-PEARCE SOLUTION 1 34 3.5.2 THE RADIAL STRESS AND VELOCITY FIELDS / 138 3.5.3 LINEARIZED STABILITY ANALYSIS / 141 3.5.4 DOWNWARD INTEGRATION FROM THE RADIAL FIELDS 143 3.5.5 THE SUCCESSIVE APPROXIMATION PROCEDURE 1 45 3.6 A RE-EXAMINATION OF THE EXIT CONDITION 149 3.7 AN ALTERNATIVE EXIT CONDITION 1 52 3.8 THE SMOOTH WALL, RADIAL GRAVITY PROBLEM FOR COMPRESSIBLE FLOW 1 54 3.9 SUMMARY 160 FLOW THROUGH WEDGE-SHAPED BUNKERS 166 4. 1 EXPERIMENTAL OBSERVATIONS 1 66 VIII CONTENTS 4.1.1 FLOW REGIMES 1 66 4.1.2 KINEMATICS 166 4.1.3 WALL STRESSES - 175 4.1.4 BINS 1 78 4.2 MODELS FOR BUNKER FLOW 182 4.2.1 THE BIN SECTION 1 83 4.2.2 THE TRANSITION REGION 190 4.2.3 THE HOPPER SECTION 203 4.3 SUMMARY 208 THEORY FOR SLOW THREE-DIMENSIONAL FLOW 213 5.1 CONSTITUTIVE EQUATIONS INVOLVING A YIELD CONDITION 213 . I THE YIELD CONDITION 213 .2 SYMMETRY CONSIDERATIONS 220 .3 CONVENTIONAL TRIAXIAL TESTS 220 .4 ISOTROPIC COMPRESSION TESTS 222 .5 COMPRESSION TESTS 223 .6 CUBICAL TRIAXIAL TESTS 225 .7 COMPARISON OF YIELD CONDITIONS WITH DATA 226 .8 FLOW RULES 226 .9 DATA RELATED TO FLOW RULES 228 . 10 STEADY, FULLY DEVELOPED FLOW OF A RIGID-PLASTIC MATERIAL 22 9 . 11 ONE-DIMENSIONAL DEFORMATION OF A RIGID-PLASTIC MATERIAL 230 5.2 CONSTITUTIVE EQUATIONS THAT DO NOT INVOLVE A YIELD CONDITION 233 5.2.1 HYPOELASTIC AND HYPOPLASTIC MODELS 233 5.2.2 SOME FEATURES OF (5.66) 235 5.2.3 STEADY, FULLY DEVELOPED FLOW OF A HYPOELASTIC MATERIAL 236 5.2.4 ONE-DIMENSIONAL DEFORMATION OF A HYPOELASTIC MATERIAL 236 5.3 SUMMARY 239 6 FLOW THROUGH AXISYMMETRIC HOPPERS AND BUNKERS 249 6.1 EXPERIMENTAL OBSERVATIONS 249 6.1.1 FLOW RATE 249 6.1.2 VELOCITY PROFILES 249 6.1.3 DENSITY PROFILES 25 1 6.1.4 FLOW PATTERNS , 253 6.1.5 STRESS PROFILES ' 256 6.2 THEORY FOR STEADY, AXISYMMETRIC FLOW THROUGH A. HOPPER 259 6.2.1 THE HAAR-VON KARMAN HYPOTHESIS * 26 1 6.2.2 THE RADIAL STRESS AND VELOCITY FIELDS FOR THE MOHR-COULOMB YIELD CONDITION AND THE,HAAR-VON KARMAN HYPOTHESIS / 264 6.2.3 THE DRUCKER-PRAGER YIELD CONDITION ARID LEVY'S FLOW RULE 266 6.2.4 COMPARISON OF PREDICTED AND MEASURED VELOCITY PROFILES 26 9 6.2.5 CRITERIA FOR MASS FLOW 269 6.3 A HYBRID HYPOPLASTIC-VISCOUS MODEL 273 6.4 THE KINEMATIC MODEL FOR BATCH DISCHARGE FROM A BIN 276 6.5 SUMMARY 280 7 THEORY FOR RAPID FLOW OF SMOOTH, INELASTIC PARTICLES 285 7. 1 PRELIMINARIES AND SCALING 285 CONTENTS 7.1. 1 MODEL FOR INELASTIC COLLISIONS 288 7.1.2 HYDRODYNAMIC DESCRIPTION OF RAPID GRANULAR FLOWS 289 7.2 HEURISTIC HYDRODYNAMIC THEORY FOR HIGH-DENSITY FLOWS 290 7.2.1 APPLICATION TO UNIFORM PLANE SHEAR 292 7.3 KINETIC THEORY FOR A GRANULAR GAS OF SMOOTH INELASTIC PARTICLES 295 7.3.1 STATISTICAL PRELIMINARIES 295 7.3.2 THE EVOLUTION OF F ! 297 7.3.3 THE EQUILIBRIUM DISTRIBUTION FUNCTION 300 7.3.4 THE DEPARTURE FROM EQUILIBRIUM 301 7.3.5 MAXWELL TRANSPORT EQUATION 302 7.3.6 THE EQUATIONS OF MOTION 305 7.3.7 THE CHAPMAN-ENSKOG EXPANSION 30 7 7.3.8 CONSTITUTIVE RELATIONS AT LEADING ORDER 310 7.3.9 DISTRIBUTION FUNCTION AT O(K) 311 7.3.10 SOLUTION FOR O K 316 7.3.11 CONSTITUTIVE RELATIONS AT O(K)- 319 7.3.12 DISTRIBUTION FUNCTION AND CONSTITUTIVE RELATIONS AT O(E) 321 7.3.13 CONSTITUTIVE RELATIONS TO FIRST ORDER IN K AND E 323 7.4 ANISOTROPY OF THE MICROSTRUCTURE 325 7.5 EXTENSION TO GRANULAR MIXTURES 326 7.6 SUMMARY AND DISCUSSION 328 ANALYSIS OF RAPID FLOW IN SIMPLE GEOMETRIES 331 8.1 BOUNDARY CONDITIONS AT SOLID WALLS 33 I 8.1.1 HEURISTIC THEORY 332 8.1.2 KINETIC THEORY 334 8.2 PLANE COUETTE FLOW 339 8.2.1 PREDICTIONS OF THE HIGH-DENSITY THEORY 340 8.2.2 SOME FEATURES OF THE HIGH-DENSITY SOLUTIONS 345 8.2.3 PREDICTIONS OF THE KINETIC THEORY 346 8.3 FLOW IN INCLINED CHUTES 349 8.3.1 SOME EXPERIMENTAL OBSERVATIONS OF CHUTE FLOW 35 1 8.3.2 ANALYSIS OF STEADY, FULLY DEVELOPED FLOW 355 8.3.3 HIGH-DENSITY THEORY 35 6 8.3.4 SOME FEATURES OF THE HIGH-DENSITY SOLUTIONS 358 8.3.5 PREDICTIONS OF THE KINETIC THEORY 359 8.4 STABILITY OF RAPID SHEAR FLOWS * 366 8.4.1 STABILITY OF UNBOUNDED PLANE SHEAR FLOW 366 8.4.2 STABILITY OF PLANE COUETTE FLOW 369 8.5 SUMMARY ,* 371 THEORY FOR RAPID FLOW OF ROUGH, INELASTIC PARTICLES 374 9.1 COLLISION MODELS FOR ROUGH PARTICLES 375 9.2 EQUATIONS OF MOTION FOR A GRANULAR GAS OF ROUGH, INELASTIC SPHERES 378 9.3 THE VELOCITY DISTRIBUTION FUNCTION 382 9.3.1 NEARLY ELASTIC, NEARLY PERFECTLY ROUGH PARTICLES 382 9.3.2 NEARLY ELASTIC, NEARLY SMOOTH PARTICLES 386 9.4 CONSTITUTIVE RELATIONS UP TO FIRST ORDER IN K, E, AND E 389 9.4.1 NEARLY ELASTIC, NEARLY PERFECTLY ROUGH PARTICLES 389 CONTENTS 9.4.2 NEARLY ELASTIC, NEARLY SMOOTH PARTICLES 390 9.5 SUMMARY ' 392 10 HYBRID THEORIES 394 10.1 THE FRICTIONAL-KINETIC MODEL 395 10.2 APPLICATION TO FLOW IN CHUTES 39 6 10.3 OTHER HYBRID MODELS 400 10.4 SUMMARY 401 APPENDIX A: OPERATIONS WITH VECTORS AND TENSORS 403 A. I VECTORS 403 A.2 THE SUMMATION CONVENTION 404 A.3 THE SCALAR PRODUCT OF TWO VECTORS 404 A.4 SECOND-ORDER TENSORS 405 A.4.1 THE UNIT TENSOR 406 A.4.2 THE TRACE OF A SECOND-ORDER TENSOR 406 A.5 CARTESIAN TENSOR NOTATION 407 A.6 THIRD AND HIGHER ORDER TENSORS 407 A.6.1 THE ALTERNATING TENSOR 407 A.7 OPERATIONS WITH VECTORS AND TENSORS 407 A.7.1 THE VECTOR PRODUCT OF TWO VECTORS 407 A.7.2 THE PRODUCT OF TWO SECOND-ORDER TENSORS 408 A.7.3 THE SCALAR PRODUCT OF TWO SECOND-ORDER TENSORS 408 A.7.4 THE TRANSPOSE OF A TENSOR 409 A.7.5 THE INVERSE OF A SECOND-ORDER TENSOR 409 A.7.6 THE DETERMINANT OF A SECOND-ORDER TENSOR 409 A.7.7 ORTHOGONAL SECOND-ORDER TENSORS 410 A.7.8 THE GRADIENT OPERATOR 41 I A.7.9 THE GRADIENT OF SCALARS AND VECTORS 41 I A.7.10 THE DIVERGENCE OF A SECOND-ORDER TENSOR 412 A.7.11 THE CURL OF A VECTOR 412 A.8 EQUATIONS IN ORTHOGONAL CURVILINEAR COORDINATE SYSTEMS 412 A.8.1 CYLINDRICAL COORDINATES 412 A.8.2 SPHERICAL COORDINATES 414 APPENDIX B: THE STRESS TENSOR 418 APPENDIX C: HYPERBOLIC PARTIAL DIFFERENTIAL EQUATIONS OF FIRST ORDER . 420 C. I SOLUTION BY THE METHOD OF CHARACTERISTICS 424 APPENDIX D: JUMP BALANCES .- 428 D.I THE JUMP MASS BALANCE / 428 APPENDIX E: DISCONTINUOUS SOLUTIONS OF HYPERBOLIC EQUATIONS 430 E. I WEAK SOLUTION 430 E.2 JUMP CONDITIONS 431 E.3 JUMP CONDITIONS FOR LINEAR EQUATIONS 432 APPENDIX F: PROOF OF THE COAXIALITY CONDITION 434 APPENDIX G: MATERIAL FRAME INDIFFERENCE 439 G. I CHANGE OF FRAME 439 XI CONTENTS G.2 FRAME INDIFFERENT SCALARS, VECTORS, AND TENSORS 441 G.2.1 SCALARS 441 G.2.2 VECTORS 441 G.2.3 SECOND-ORDER TENSORS 442 G.3 THE PRINCIPLE OF MATERIAL FRAME INDIFFERENCE 443 G.4 AN ALTERNATIVE INTERPRETATION OF A CHANGE OF FRAME 44 3 APPENDIX H: THE EVALUATION OF SOME INTEGRALS 449 H. I INTEGRATION OVER K 449 H.2 INTEGRATION OVER K FOR BOUNDARY CONDITIONS 450 H.3 CHANGE OF VARIABLES 451 H.4 VOLUME INTEGRALS 452 H.5 GAUSSIAN INTEGRALS 453 APPENDIX I: A BRIEF INTRODUCTION TO LINEAR STABILITY THEORY 454 APPENDIX J: PSEUDO SCALARS, VECTORS, AND TENSORS 456 APPENDIX K: ANSWERS TO SELECTED PROBLEMS 459 REFERENCES 463 INDEX 483 XII
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spelling	Rao, K. Kesava Verfasser aut An introduction to granular flow K. Kesava Rao and Prabhu R. Nott 1. publ. Cambridge, Mass. Cambridge University Press 2008 XXI, 490 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Cambridge series in chemical engineering Includes bibliographical references and index Granular materials Fluid dynamics Granulärer Stoff (DE-588)4256351-3 gnd rswk-swf Strömungsmechanik (DE-588)4077970-1 gnd rswk-swf Granulärer Stoff (DE-588)4256351-3 s Strömungsmechanik (DE-588)4077970-1 s DE-604 Nott, Prabhu R. Verfasser aut http://www.loc.gov/catdir/enhancements/fy0806/2007050026-d.html Publisher description http://www.loc.gov/catdir/enhancements/fy0806/2007050026-t.html Table of contents only HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016518859&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Rao, K. Kesava Nott, Prabhu R. An introduction to granular flow Granular materials Fluid dynamics Granulärer Stoff (DE-588)4256351-3 gnd Strömungsmechanik (DE-588)4077970-1 gnd
subject_GND	(DE-588)4256351-3 (DE-588)4077970-1
title	An introduction to granular flow
title_auth	An introduction to granular flow
title_exact_search	An introduction to granular flow
title_exact_search_txtP	An introduction to granular flow
title_full	An introduction to granular flow K. Kesava Rao and Prabhu R. Nott
title_fullStr	An introduction to granular flow K. Kesava Rao and Prabhu R. Nott
title_full_unstemmed	An introduction to granular flow K. Kesava Rao and Prabhu R. Nott
title_short	An introduction to granular flow
title_sort	an introduction to granular flow
topic	Granular materials Fluid dynamics Granulärer Stoff (DE-588)4256351-3 gnd Strömungsmechanik (DE-588)4077970-1 gnd
topic_facet	Granular materials Fluid dynamics Granulärer Stoff Strömungsmechanik
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