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Coupled CFD-DEM Modeling: Formulation, Implementation and Application to Multiphase Flows Vital Source e-bog
Hamid Reza Norouzi, Reza Zarghami, Rahmat Sotudeh-Gharebagh og Navid Mostoufi
(2016)
John Wiley & Sons
1.558,00 kr.
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Coupled CFD-DEM Modeling
Formulation, Implementation and Application to Multiphase Flows
Hamid Reza Norouzi, Reza Zarghami, Rahmat Sotudeh-Gharebagh og Navid Mostoufi
(2016)
Sprog: Engelsk
John Wiley & Sons, Incorporated
1.699,00 kr.
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Detaljer om varen
- 1. Udgave
- Vital Source searchable e-book (Reflowable pages)
- Udgiver: John Wiley & Sons (Oktober 2016)
- Forfattere: Hamid Reza Norouzi, Reza Zarghami, Rahmat Sotudeh-Gharebagh og Navid Mostoufi
- ISBN: 9781119005292
Discusses the CFD-DEM method of modeling which combines both the Discrete Element Method and Computational Fluid Dynamics to simulate fluid-particle interactions. Deals with both theoretical and practical concepts of CFD-DEM, its numerical implementation accompanied by a hands-on numerical code in FORTRAN Gives examples of industrial applications
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Bookshelf online: 5 år fra købsdato.
Bookshelf appen: ubegrænset dage fra købsdato.
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Print: 10 sider kan printes ad gangen
Copy: højest 2 sider i alt kan kopieres (copy/paste)
Detaljer om varen
- Hardback: 432 sider
- Udgiver: John Wiley & Sons, Incorporated (Oktober 2016)
- Forfattere: Hamid Reza Norouzi, Reza Zarghami, Rahmat Sotudeh-Gharebagh og Navid Mostoufi
- ISBN: 9781119005131
Discusses the CFD-DEM method of modeling which combines both the Discrete Element Method and Computational Fluid Dynamics to simulate fluid-particle interactions.
- Deals with both theoretical and practical concepts of CFD-DEM, its numerical implementation accompanied by a hands-on numerical code in FORTRAN
- Gives examples of industrial applications
About the Authors xi Preface xiii 1 Introduction 1
1.1 Multiphase Coupling 2
1.2 Modeling Approaches 2
1.3 Modeling with DEM 5
1.4 CFDDEM Modeling 7
1.5 Applications 10
1.6 Scope and Overall Plan 10
1.7 Online Content 12 References 12
Part I DEM 15 2 DEM Formulation 17
2.1 HardSphere 18
2.1.1 Equation of Motion 19
2.1.2 Collision Model 19
2.1.3 Interparticle Forces 22
2.2 SoftSphere 24
2.2.1 Equations of Motion 25
2.3 ForceDisplacement Laws 27
2.3.1 Linear Viscoelastic Model 29
2.3.2 Nonlinear Viscoelastic Models 36
2.3.3 Comparison of Viscoelastic ForceDisplacement Models 45
2.3.4 Elastic Perfectly Plastic Models 49
2.4 Torque Expressions 56
2.4.1 Model A: Constant Torque Model 56
2.4.2 Model B: Viscous Model 57
2.4.3 Model C: SpringDashpot Model 57
2.5 Boundary and Initial Conditions 58
2.5.1 Boundary Conditions 58
2.5.2 Initial Condition 60 Nomenclature 60 References 64 3 DEM Implementation 68
3.1 Computational View 68
3.2 Program Structure 71
3.3 Contact Search Algorithms 76
3.3.1 Definition of Problem 79
3.3.2 CellBased Algorithms 80
3.3.3 SortBased Algorithms 96
3.3.4 TreeBased Broad Search Algorithms 99
3.3.5 Fine Search for Spherical Particles 103
3.4 Integration Methods 103
3.4.1 SingleStep Methods 106
3.4.2 MultiStep Algorithms 110
3.4.3 PredictorCorrector Methods 112
3.4.4 Evaluation of Integration Methods 114
3.5 Spring Stiffness 119
3.5.1 Maximum Overlap 122
3.5.2 Collision Time and Maximum Contact Force 123
3.6 Wall Implementation 123
3.6.1 Definition of Wall Elements 125
3.6.2 Contact Detection 128
3.6.3 Moving Wall 136
3.7 Parallelization 138
3.7.1 Distributed Memory Parallelization 138
3.7.2 SharedMemory Parallelization 141 Nomenclature 145 References 147 4 NonSpherical Particles 152
4.1 Shape Representation 153
4.2 Kinematics and Dynamics of a Rigid Body 156
4.2.1 Euler Angles and Transformation Matrix 157
4.2.2 Equations of Motion 159
4.2.3 Quaternions for Rigid Body Dynamics 163
4.3 Superellipsoids 164
4.3.1 Contact Forces 166
4.3.2 Effective Radius and Curvatures 169
4.3.3 Torque Calculations 173
4.3.4 Contact Detection 174
4.4 MultiSphere Method 178 Nomenclature 184 References 186 5 DEM Applications to Granular Flows 189
5.1 Packing of Particles 189
5.1.1 Confined Packing 189
5.1.2 Pile Formation 192
5.1.3 Rigid and Flexible Fibers 194
5.2 Flow in Hoppers 196
5.2.1 Flow Patterns 197
5.2.2 Segregation 199
5.2.3 Discharge Rate 201
5.3 Solid Mixing 203
5.3.1 Mechanisms of Mixing and Segregation 203
5.3.2 Mixing Index 205
5.3.3 Rotating Drums 209
5.3.4 Tumbling Blenders 220
5.3.5 Shaft Batch Mixers 223
5.3.6 Continuous Mixers 229
5.4 Screw Conveying 234
5.4.1 Simulation of Screw Conveyor 237
5.4.2 Results of the Simulations 238
5.4.3 Literature 239
5.5 Film Coating 241
5.5.1 Phenomenological Models 243
5.5.2 MonteCarlo Method 244 Nomenclature 247 References 249
Part II CFDDEM 257 6 CFDDEM Formulation and Coupling 259
6.1 Multiphase Coupling 260
6.1.1 Coupling Strategies 260
6.1.2 Types of Coupling 262
6.1.3 Interphase Interactions 265
6.2 Momentum Coupling 267
6.2.1 Single Phase Flow of Fluids 267
6.2.2 Fluid Resolution in CFDDEM 274
6.2.3 Unresolved Surface CFDDEM 275
6.2.4 Surface Force Decomposition 287
6.3 Energy Coupling 303
6.3.1 Governing Equations 304
6.3.2 Rates of Heat Transfer for Particles 308
6.3.3 Rates of Heat Transfer for Fluid 316
6.3.4 Sequence of Calculations 317
6.4 Mass Coupling 319
6.4.1 Governing Equations 319
6.4.2 Rates of Mass Transfer for Particles 324
6.4.3 Rates of Change in Fluid 329
6.4.4 Sequence of Calculations 329 Nomenclature 329 References 335 7 CFDDEM Applications to Multiphase Flow 341
7.1 Fluidization 341
7.1.1 MacroScale Phenomena 342
7.1.2 MesoScale Phenomena 344
7.1.3 MicroScale Phenomena 345
7.2 Spouting 347
7.3 Pneumatic Conveying 355
7.3.1 Dilute Phase and Dense Phase Conveying 356
7.3.2 Horizontal Conveying 357
7.3.3 Vertical Conveying 359
7.4 NonIsothermal Flows 359
7.5 Reactive Flows 362
7.6 Miscellaneous 364 Nomenclature 365 References 366 8 Interparticle Forces and External Fields 372
8.1 Governing Equations 373
8.1.1 Sequence of Calculations 375
8.2 Interparticle Forces 376
8.2.1 van der Waals Force 376
8.2.2 Liquid Bridge Force 379
8.2.3 Electrostatic Force 386
8.3 External Fields 390
8.3.1 Electric Field 390
8.3.2 Magnetic Field 393
8.3.3 Vibration Field 397
8.3.4 Acoustic Field 398
8.4 Applications 399 Nomenclature 404 References 407 Index 412
1.1 Multiphase Coupling 2
1.2 Modeling Approaches 2
1.3 Modeling with DEM 5
1.4 CFDDEM Modeling 7
1.5 Applications 10
1.6 Scope and Overall Plan 10
1.7 Online Content 12 References 12
Part I DEM 15 2 DEM Formulation 17
2.1 HardSphere 18
2.1.1 Equation of Motion 19
2.1.2 Collision Model 19
2.1.3 Interparticle Forces 22
2.2 SoftSphere 24
2.2.1 Equations of Motion 25
2.3 ForceDisplacement Laws 27
2.3.1 Linear Viscoelastic Model 29
2.3.2 Nonlinear Viscoelastic Models 36
2.3.3 Comparison of Viscoelastic ForceDisplacement Models 45
2.3.4 Elastic Perfectly Plastic Models 49
2.4 Torque Expressions 56
2.4.1 Model A: Constant Torque Model 56
2.4.2 Model B: Viscous Model 57
2.4.3 Model C: SpringDashpot Model 57
2.5 Boundary and Initial Conditions 58
2.5.1 Boundary Conditions 58
2.5.2 Initial Condition 60 Nomenclature 60 References 64 3 DEM Implementation 68
3.1 Computational View 68
3.2 Program Structure 71
3.3 Contact Search Algorithms 76
3.3.1 Definition of Problem 79
3.3.2 CellBased Algorithms 80
3.3.3 SortBased Algorithms 96
3.3.4 TreeBased Broad Search Algorithms 99
3.3.5 Fine Search for Spherical Particles 103
3.4 Integration Methods 103
3.4.1 SingleStep Methods 106
3.4.2 MultiStep Algorithms 110
3.4.3 PredictorCorrector Methods 112
3.4.4 Evaluation of Integration Methods 114
3.5 Spring Stiffness 119
3.5.1 Maximum Overlap 122
3.5.2 Collision Time and Maximum Contact Force 123
3.6 Wall Implementation 123
3.6.1 Definition of Wall Elements 125
3.6.2 Contact Detection 128
3.6.3 Moving Wall 136
3.7 Parallelization 138
3.7.1 Distributed Memory Parallelization 138
3.7.2 SharedMemory Parallelization 141 Nomenclature 145 References 147 4 NonSpherical Particles 152
4.1 Shape Representation 153
4.2 Kinematics and Dynamics of a Rigid Body 156
4.2.1 Euler Angles and Transformation Matrix 157
4.2.2 Equations of Motion 159
4.2.3 Quaternions for Rigid Body Dynamics 163
4.3 Superellipsoids 164
4.3.1 Contact Forces 166
4.3.2 Effective Radius and Curvatures 169
4.3.3 Torque Calculations 173
4.3.4 Contact Detection 174
4.4 MultiSphere Method 178 Nomenclature 184 References 186 5 DEM Applications to Granular Flows 189
5.1 Packing of Particles 189
5.1.1 Confined Packing 189
5.1.2 Pile Formation 192
5.1.3 Rigid and Flexible Fibers 194
5.2 Flow in Hoppers 196
5.2.1 Flow Patterns 197
5.2.2 Segregation 199
5.2.3 Discharge Rate 201
5.3 Solid Mixing 203
5.3.1 Mechanisms of Mixing and Segregation 203
5.3.2 Mixing Index 205
5.3.3 Rotating Drums 209
5.3.4 Tumbling Blenders 220
5.3.5 Shaft Batch Mixers 223
5.3.6 Continuous Mixers 229
5.4 Screw Conveying 234
5.4.1 Simulation of Screw Conveyor 237
5.4.2 Results of the Simulations 238
5.4.3 Literature 239
5.5 Film Coating 241
5.5.1 Phenomenological Models 243
5.5.2 MonteCarlo Method 244 Nomenclature 247 References 249
Part II CFDDEM 257 6 CFDDEM Formulation and Coupling 259
6.1 Multiphase Coupling 260
6.1.1 Coupling Strategies 260
6.1.2 Types of Coupling 262
6.1.3 Interphase Interactions 265
6.2 Momentum Coupling 267
6.2.1 Single Phase Flow of Fluids 267
6.2.2 Fluid Resolution in CFDDEM 274
6.2.3 Unresolved Surface CFDDEM 275
6.2.4 Surface Force Decomposition 287
6.3 Energy Coupling 303
6.3.1 Governing Equations 304
6.3.2 Rates of Heat Transfer for Particles 308
6.3.3 Rates of Heat Transfer for Fluid 316
6.3.4 Sequence of Calculations 317
6.4 Mass Coupling 319
6.4.1 Governing Equations 319
6.4.2 Rates of Mass Transfer for Particles 324
6.4.3 Rates of Change in Fluid 329
6.4.4 Sequence of Calculations 329 Nomenclature 329 References 335 7 CFDDEM Applications to Multiphase Flow 341
7.1 Fluidization 341
7.1.1 MacroScale Phenomena 342
7.1.2 MesoScale Phenomena 344
7.1.3 MicroScale Phenomena 345
7.2 Spouting 347
7.3 Pneumatic Conveying 355
7.3.1 Dilute Phase and Dense Phase Conveying 356
7.3.2 Horizontal Conveying 357
7.3.3 Vertical Conveying 359
7.4 NonIsothermal Flows 359
7.5 Reactive Flows 362
7.6 Miscellaneous 364 Nomenclature 365 References 366 8 Interparticle Forces and External Fields 372
8.1 Governing Equations 373
8.1.1 Sequence of Calculations 375
8.2 Interparticle Forces 376
8.2.1 van der Waals Force 376
8.2.2 Liquid Bridge Force 379
8.2.3 Electrostatic Force 386
8.3 External Fields 390
8.3.1 Electric Field 390
8.3.2 Magnetic Field 393
8.3.3 Vibration Field 397
8.3.4 Acoustic Field 398
8.4 Applications 399 Nomenclature 404 References 407 Index 412
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