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/- 1. Tutorial - Transfer Chute
- 1.1. Part A: Project Setup and Processing
- 1.1.1. OBJECTIVES
- 1.1.2. GEOMETRY INTRODUCTION
- 1.1.3. PROJECT CREATION
- 1.1.4. ROCKY INTERFACE (UI)
- 1.1.5. PROJECT SETUP DATA PANEL ITEMS
- 1.1.6. POST-PROCESSING DATA PANEL ITEMS
- 1.1.7. PROJECT DETAILS
- 1.1.8. PHYSICS DEFINITION
- 1.1.9. GEOMETRY IMPORT
- 1.1.10. PROJECT SAVING
- 1.1.11. 3D VIEW
- 1.1.12. 3D VIEW CONTROL
- 1.1.13. INLET DEFINITION
- 1.1.14. GRAPHIC DISPLAY
- 1.1.15. MOTION FRAMES
- 1.1.16. MATERIAL DEFINITION
- 1.1.17. INTERACTIONS BETWEEN MATERIALS
- 1.1.18. PARTICLE GROUP DEFINITION
- 1.1.19. PARTICLE PREVIEW
- 1.1.20. INLETS AND OUTLETS DEFINITION
- 1.1.21. SOLVER DEFINITION
- 1.1.22. SIMULATION STATUS
- 1.1.23. SIMULATION
- 1.1.24. HELP - USER MANUAL
- 1.1.25. CONCLUSION
- 1.2. Part B: Post-Processing
- 1.2.1. OBJECTIVES
- 1.2.2. OPEN PROJECT
- 1.2.3. MOVING TROUGH OUTPUTS
- 1.2.4. COLORING GEOMETRIES/PARTICLES
- 1.2.5. 3D VIEW OVERLAYS
- 1.2.6. ANIMATION
- 1.2.7. ANIMATION PANEL
- 1.2.8. CREATING AN ANIMATION
- 1.2.9. TIME-DEPENDENT PLOTS
- 1.2.10. MULTI TIME PLOT
- 1.2.11. USER PROCESSES
- 1.2.12. USER PROCESSES - CUBE
- 1.2.13. USER PROCESSES - PLANE
- 1.2.14. TIME PLOT
- 1.2.15. POST PROCESSING - USER PROCESSES
- 1.2.16. POST PROCESSING - EXPORT IMAGES
- 1.2.17. HELP - USER MANUAL
- 1.2.18. CONCLUSION
- 2. Tutorial - Static Angle of Repose Test
- 2.1. Part A: Project Setup and Processing
- 2.1.1. OBJECTIVES
- 2.1.2. PREREQUISITES
- 2.1.3. GEOMETRY
- 2.1.4. PROJECT CREATION
- 2.1.5. PROJECT DETAILS
- 2.1.6. PHYSICS DEFINITION
- 2.1.7. GEOMETRY IMPORT
- 2.1.8. VIEW GEOMETRY - CHANGE PROJECTION
- 2.1.9. BOUNDARY MOVEMENT
- 2.1.10. MOTION FRAME – TRANSLATION
- 2.1.11. MOTION FRAMES
- 2.1.12. MOTION FRAMES – EDITING TIP
- 2.1.13. MOTION FRAME – CONTAINER CYLINDER
- 2.1.14. MOTION FRAMES
- 2.1.15. MOTION PREVIEW
- 2.1.16. MATERIAL DEFINITIONS
- 2.1.17. INTERACTIONS BETWEEN MATERIALS
- 2.1.18. PARTICLE GROUP DEFINITION
- 2.1.19. PARTICLE INPUT – VOLUMETRIC INLET
- 2.1.20. INLETS AND OUTLETS DEFINITION
- 2.1.21. SOLVER DEFINITION
- 2.1.22. SIMULATION
- 2.1.23. HELP – USER MANUAL
- 2.1.24. CONCLUSION
- 2.2. Part B: Post-Processing with Scripts
- 2.2.1. OBJECTIVES
- 2.2.2. OPEN PROJECT
- 2.2.3. POST-PROCESSING: MANUAL METHOD
- 2.2.4. CROSS PLOT
- 2.2.5. PLOT SETTINGS
- 2.2.6. AXES SETTINGS
- 2.2.7. MEASURING RESULTS – MANUAL METHOD
- 2.2.8. CALCULATIONS – MANUAL METHOD
- 2.2.9. POST-PROCESSING: AUTOMATIC METHOD
- 2.2.10. PREPOST SCRIPT PANEL
- 2.2.11. SCRIPT RESULTS
- 2.2.12. SCRIPT RESULTS
- 2.2.13. SCRIPT RESULTS
- 2.2.14. CALIBRATION SUITE AND MATERIAL WIZARD
- 2.2.15. MODIFYING THE SCRIPT
- 2.2.16. HELP – SCRIPTS MANUAL
- 2.2.17. HELP – PREPOST SCRIPTING MANUAL
- 2.2.18. HELP – USER MANUAL
- 2.2.19. CONCLUSION
- 2.3. Part C: Batch-Processing
- 2.3.1. OBJECTIVES
- 2.3.2. PROJECT
- 2.3.3. SAVE COPIES WITHOUT RESULTS
- 2.3.4. INPUT VARIABLES
- 2.3.5. INTERACTIONS BETWEEN MATERIALS
- 2.3.6. SCHEDULED PREPOST SCRIPTS
- 2.3.7. PROJECT SCRIPTS
- 2.3.8. POST SCRIPT
- 2.3.9. SAVE COPIES WITHOUT RESULTS
- 2.3.10. ROCKY SCHEDULER
- 2.3.11. RESULTS
- 2.3.12. HELP – USER MANUAL
- 2.3.13. CONCLUSION
- 3. Tutorial - Vibrating Screen
- 3.1. Part A: Project Setup and Processing
- 3.1.1. OBJECTIVES
- 3.1.2. PREREQUISITES
- 3.1.3. GEOMETRY
- 3.1.4. PROJECT CREATION
- 3.1.5. PROJECT DETAILS
- 3.1.6. PHYSICS DEFINITION
- 3.1.7. GEOMETRY IMPORT
- 3.1.8. VIEW GEOMETRY
- 3.1.9. INLET SURFACE DEFINITION
- 3.1.10. OUTLET SURFACE DEFINITION
- 3.1.11. BOUNDARY MOVEMENT
- 3.1.12. MOTION FRAME – VIBRATION AND PENDULUM
- 3.1.13. PERIODIC MOTION – OSCILLATION
- 3.1.14. PERIODIC MOTION – INITIAL PHASE
- 3.1.15. VIBRATION OSCILLATION
- 3.1.16. MOTION FRAME
- 3.1.17. MATERIAL DEFINITION
- 3.1.18. INTERACTIONS BETWEEN MATERIALS
- 3.1.19. PARTICLE GROUP DEFINITION
- 3.1.20. PARTICLE SIZE DISTRIBUTION (PSD)
- 3.1.21. PARTICLE GROUP DEFINITION
- 3.1.22. MASS FLOW DEFINITION
- 3.1.23. DOMAIN SETTINGS
- 3.1.24. SOLVER DEFINITION
- 3.1.25. SIMULATION
- 3.1.26. EXTEND SIMULATION DURATION
- 3.1.27. SOLVER DEFINITION
- 3.1.28. SCREEN VERIFICATION
- 3.1.29. HELP – USER MANUAL
- 3.1.30. CONCLUSION
- 3.2. Part B: Post-Processing
- 3.2.1. OBJECTIVES
- 3.2.2. PREREQUISITES
- 3.2.3. OPEN PROJECT
- 3.2.4. POST PROCESSING – SCREEN EFFICIENCY
- 3.2.5. USER PROCESS – CUBE
- 3.2.6. USER PROCESS – FILTER
- 3.2.7. INCLUDING REMOVED PARTICLES
- 3.2.8. CUSTOM CURVES
- 3.2.9. TABLE VIEW
- 3.2.10. POST PROCESSING – SCREEN EFFICIENCY
- 3.2.11. PARTICLES TIME SELECTION
- 3.2.12. HISTOGRAM
- 3.2.13. PSD HISTOGRAM
- 3.2.14. HELP – USER MANUAL
- 3.2.15. CONCLUSIONS
- 3.3. Part C: Post-Processing – Optimization
- 3.3.1. OBJECTIVES
- 3.3.2. PREREQUISITES
- 3.3.3. PROJECT CREATION
- 3.3.4. OPTIMIZATION SETUP – PARAMETRIZE INPUTS
- 3.3.5. OPTIMIZATION SETUP – CRITERIA
- 3.3.6. OPTIMIZATION SETUP – OPTIMIZATION METHOD
- 3.3.7. OPTIMIZATION SETUP – RUN
- 3.3.8. OPTIMIZATION ANALYSIS – RESULTS
- 3.3.9. HELP – ANSYS LEARNING HUB
- 3.3.10. CONCLUSIONS
- 4. Tutorial - SAG Mill
- 4.1. Part A: Project Setup and Processing
- 4.1.1. OBJECTIVES
- 4.1.2. PREREQUISITES
- 4.1.3. GEOMETRY
- 4.1.4. PROJECT CREATION
- 4.1.5. PROJECT DETAILS
- 4.1.6. PHYSICS DEFINITION
- 4.1.7. MODULES DEFINITION
- 4.1.8. DEFAULT MODULES
- 4.1.9. MODULES DEFINITION
- 4.1.10. ENERGY SPECTRA
- 4.1.11. MODULES DEFINITION
- 4.1.12. MODULE-SPECIFIC PARAMETERS
- 4.1.13. GEOMETRY IMPORT
- 4.1.14. VIEW GEOMETRY – CHANGE PROJECTION
- 4.1.15. GEOMETRY BEST PRACTICE
- 4.1.16. MOTION FRAME
- 4.1.17. MOTION FRAME – ROTATION (MILL START)
- 4.1.18. MOTION FRAME – ROTATION (STEADY STATE)
- 4.1.19. MOTION FRAME
- 4.1.20. MOTION PREVIEW
- 4.1.21. GEOMETRY DEFINITION – WEAR MODEL
- 4.1.22. GEOMETRY DEFINITION – WEAR AND TRIANGLE SIZE
- 4.1.23. GEOMETRY DEFINITION – WEAR – MESHING
- 4.1.24. CHANGE TRIANGLE SIZE
- 4.1.25. REFERENCE GEOMETRY
- 4.1.26. MATERIAL DEFINITION
- 4.1.27. INTERACTION BETWEEN MATERIALS
- 4.1.28. PARTICLE GROUP DEFINITION
- 4.1.29. PARTICLE INLET – VOLUMETRIC INLET
- 4.1.30. INLET DEFINITION
- 4.1.31. CONTACTS COLLECTION
- 4.1.32. DOMAIN SETTINGS – PERIODIC
- 4.1.33. SOLVER DEFINITION
- 4.1.34. SIMULATION
- 4.1.35. HELP – USER MANUAL
- 4.1.36. CONCLUSION
- 4.2. Part B: Post-Processing (Wear and Contacts Analyses)
- 4.2.1. OBJECTIVES
- 4.2.2. PREREQUISITES
- 4.2.3. OPEN PROJECT
- 4.2.4. WEAR ANALYSIS – COMPARE PROFILES
- 4.2.5. WEAR ANALYSIS – RADIAL DISPLACEMENT
- 4.2.6. WEAR ANALYSIS – EXPORT WORN GEOMETRY
- 4.2.7. POST PROCESSING – PARTICLES TRAJECTORY
- 4.2.8. EULERIAN STATISTICS
- 4.2.9. USER PROCESS – CYLINDER
- 4.2.10. EULERIAN STATISTICS
- 4.2.11. VISUALIZE EULERIAN STATISTICS
- 4.2.12. PLOT EULERIAN STATISTICS
- 4.2.13. HELP – USER MANUAL
- 4.2.14. CONCLUSION
- 4.3. Part C: Post-Processing (Energy Analyses)
- 4.3.1. OBJECTIVES
- 4.3.2. PREREQUISITES
- 4.3.3. OPEN PROJECT
- 4.3.4. ENERGY SPECTRA ANALYSES
- 4.3.5. CONTACTS ENERGY SPECTRA
- 4.3.6. PARTICLES ENERGY SPECTRA
- 4.3.7. CONTACTS ENERGY SPECTRA
- 4.3.8. ENERGY BALANCE ANALYSES
- 4.3.9. ENERGY BALANCE – SUPPLIED POWER
- 4.3.10. ENERGY BALANCE – MECHANICAL ENERGY
- 4.3.11. ENERGY BALANCE – DISSIPATED POWER
- 4.3.12. ENERGY BALANCE ANALYSES
- 4.3.13. HELP – USER MANUAL
- 4.3.14. CONCLUSION
- 5. Tutorial - Drop Weight Test
- 5.1. Part A: Project Setup and Processing
- 5.1.1. OBJECTIVE
- 5.1.2. PREREQUISITES
- 5.1.3. GEOMETRY
- 5.1.4. INTRODUCTION
- 5.1.5. PROJECT CREATION
- 5.1.6. PROJECT DETAILS
- 5.1.7. PHYSICS DEFINITION
- 5.1.8. GEOMETRY IMPORT
- 5.1.9. INLET SURFACE DEFINITION
- 5.1.10. BOUNDARY MOVEMENT
- 5.1.11. MOTION FRAME
- 5.1.12. MOTION FRAME – EXAMPLE 1
- 5.1.13. MOTION FRAME – EXAMPLE 2
- 5.1.14. MOTION FRAME – EXAMPLE 3
- 5.1.15. MOTION FRAME
- 5.1.16. BOUNDARY SETUP
- 5.1.17. MOTION PREVIEW
- 5.1.18. MATERIAL DEFINITION
- 5.1.19. INTERACTION BETWEEN MATERIALS
- 5.1.20. PARTICLE GROUP DEFINITION
- 5.1.21. BREAKAGE MODEL
- 5.1.22. PARTICLE GROUP DEFINITION
- 5.1.23. MASS FLOW DEFINITION
- 5.1.24. SOLVER DEFINITION
- 5.1.25. SOLVER DEFINITION
- 5.1.26. SIMULATION
- 5.1.27. HELP – USER MANUAL
- 5.1.28. CONCLUSION
- 5.2. Part B: Post-Processing
- 6. Tutorial - High Pressure Grinding Roll (HPGR)
- 6.1. Part A: Project Setup and Processing
- 6.1.1. OBJECTIVE
- 6.1.2. PREREQUISITES
- 6.1.3. GEOMETRY
- 6.1.4. PROJECT CREATION
- 6.1.5. MODULES DEFINITION
- 6.1.6. GEOMETRIES
- 6.1.7. VISUALIZE GEOMETRIES
- 6.1.8. BOUNDARY MOVEMENT
- 6.1.9. MOTION FRAME – SPRING-DASHPOT FORCE/MOMENT
- 6.1.10. MOTION FRAMES
- 6.1.11. BOUNDARY DEFINITION
- 6.1.12. INTERACTION BETWEEN MATERIALS
- 6.1.13. SOLVER DEFINITION
- 6.1.14. SETUP CONFIRMATION
- 6.1.15. SOLVER DEFINITION
- 6.1.16. CONCLUSION
- 6.2. Part B: Post-Processing
- 7. Tutorial - Conical Dryer
- 7.1. Part A: Project Setup and Processing
- 7.1.1. OBJECTIVE
- 7.1.2. PREREQUISITES
- 7.1.3. GEOMETRY
- 7.1.4. PROJECT CREATION
- 7.1.5. PHYSICS DEFINITION
- 7.1.6. PROJECT SETUP
- 7.1.7. BOUNDARY MOVEMENT
- 7.1.8. MOTION FRAME
- 7.1.9. MOTION PREVIEW
- 7.1.10. BOUNDARY DEFINITION – THERMAL BOUNDARY
- 7.1.11. MATERIAL DEFINITION
- 7.1.12. COMPLETE PROJECT SETUP
- 7.1.13. SETUP CONFIRMATION
- 7.1.14. SIMULATE PROJECT
- 7.1.15. CONCLUSION
- 7.2. Part B: Post-Processing
- 7.2.1. OBJECTIVE
- 7.2.2. PREREQUISITES
- 7.2.3. OPEN PROJECT
- 7.2.4. SET AND REUSE EXACT VIEWS
- 7.2.5. EXPORT PROJECT CONTEXT
- 7.2.6. SET AND REUSE EXACT VIEWS
- 7.2.7. EVALUATING PARTICLE TEMPERATURE
- 7.2.8. COLOR SCALE
- 7.2.9. EVALUATING PARTICLE TEMPERATURE
- 7.2.10. TIME PLOT
- 7.2.11. CELL INSPECTOR
- 7.2.12. TIME PLOT
- 7.2.13. CONCLUSION
- 8. Tutorial - Cone Crusher
- 8.1. Part A: Project Setup and Processing
- 8.1.1. OBJECTIVES
- 8.1.2. PREREQUISITES
- 8.1.3. GEOMETRY
- 8.1.4. PROJECT CREATION
- 8.1.5. PROJECT SETUP
- 8.1.6. GEOMETRY IMPORT
- 8.1.7. MOTION FRAME CONE CRUSHER
- 8.1.8. MATERIAL DEFINITION
- 8.1.9. PARTICLE GROUP DEFINITION
- 8.1.10. RANDOM PARTICLE ORIENTATION
- 8.1.11. PARTICLE GROUP DEFINITION
- 8.1.12. TAVARES BREAKAGE MODEL
- 8.1.13. PARTICLE GROUP DEFINITION
- 8.1.14. MASS FLOW DEFINITION
- 8.1.15. SETUP CONFIRMATION
- 8.1.16. SIMULATE PROJECT
- 8.1.17. CONCLUSION
- 8.2. Part B: Post-Processing
- 9. Tutorial - Tablet Coater
- 9.1. Part A: Project Setup and Processing
- 9.1.1. OBJECTIVE
- 9.1.2. PREREQUISITES
- 9.1.3. GEOMETRY
- 9.1.4. PROJECT CREATION
- 9.1.5. PROJECT SETUP
- 9.1.6. PARTICLE GROUP DEFINITION
- 9.1.7. ORIGINAL SIZE SCALE
- 9.1.8. PARTICLE GROUP DEFINITION
- 9.1.9. INLET SETUP
- 9.1.10. CONTACTS COLLECTION
- 9.1.11. SOLVER DEFINITION
- 9.1.12. SETUP CONFIRMATION
- 9.1.13. SIMULATION SUMMARY
- 9.1.14. CONCLUSION
- 9.1.15. APPENDIX: CONVEX AND CONCAVE DETECTION
- 9.2. Part B: Post-Processing
- 9.2.1. OBJECTIVE
- 9.2.2. PREREQUISITES
- 9.2.3. OPEN PROJECT
- 9.2.4. PARTICLE RESIDENCE TIME
- 9.2.5. USER PROCESS – POLYHEDRON 1
- 9.2.6. USER PROCESS – POLYHEDRON 2
- 9.2.7. POST PROCESSING – PARTICLE RESIDENCE TIME
- 9.2.8. POST PROCESSING – INTER TABLET VARIABILITY (COV)
- 9.2.9. TIME PLOT
- 9.2.10. POST PROCESSING – COV
- 9.2.11. EULERIAN STATISTICS
- 9.2.12. USER PROCESS – CYLINDER
- 9.2.13. EULERIAN STATISTICS
- 9.2.14. TIME STATISTICS PROPERTIES
- 9.2.15. INTRA-PARTICLE COLLISION STATISTICS
- 9.2.16. INTER-PARTICLE COLLISION STATISTICS
- 9.2.17. CONCLUSION
- 9.3. Part C: Spray Zone Evaluation
- 9.3.1. OBJECTIVE
- 9.3.2. PREREQUISITES
- 9.3.3. OPEN PROJECT
- 9.3.4. PARTICLE VISIBILITY
- 9.3.5. COATING VISIBILITY WIZARD
- 9.3.6. COATING VISIBILITY WIZARD – INTER-TABLET VARIABILITY (CoV)
- 9.3.7. POST PROCESSING – VISIBILITY
- 9.3.8. POST PROCESSING – PARTICLES VISIBILITY
- 9.3.9. POST PROCESSING – TRIANGLE VISIBILITY
- 9.3.10. CONCLUSION
- 9.3.11. BIBLIOGRAPHY
- 10. Tutorial - Bucket Conveyor
- 10.1. Part A: Project Setup and Processing
- 10.1.1. OBJECTIVE
- 10.1.2. PREREQUISITES
- 10.1.3. GEOMETRY
- 10.1.4. PROJECT CREATION
- 10.1.5. GEOMETRY SETUP
- 10.1.6. BOUNDARY MOVEMENT
- 10.1.7. PERIODIC MOTION
- 10.1.8. MOTION FRAME
- 10.1.9. BOUNDARY DEFINITION – REPLICATION
- 10.1.10. CONTINUE PROJECT SETUP
- 10.1.11. MASS FLOW DEFINITION – CONSTANT FEED
- 10.1.12. PERIODIC INJECTION
- 10.1.13. MASS FLOW DEFINITION – SURGE FEED
- 10.1.14. SETUP CONFIRMATION
- 10.1.15. SIMULATE PROJECT
- 10.1.16. CONCLUSION
- 10.2. Part B: Post-Processing
- 11. Tutorial - Discharge Air Flow
- 12. Tutorial - Static Structural
- 12.1. Part A: Project Setup and Processing
- 12.1.1. OBJECTIVE
- 12.1.2. PREREQUISITES
- 12.1.3. GEOMETRY
- 12.1.4. GEOMETRY PREPARATION
- 12.1.5. WORKBENCH SETUP
- 12.1.6. PROJECT SETUP
- 12.1.7. GEOMETRY MESH
- 12.1.8. VISUALIZING THE GEOMETRY
- 12.1.9. EXTERNAL COUPLING
- 12.1.10. FINISH PROJECT SETUP
- 12.1.11. POST PROCESS – OUTPUT
- 12.1.12. COMPLETE PROJECT
- 12.1.13. CONCLUSION
- 12.2. Part B: Mechanical Coupling (Workbench)
- 12.2.1. OBJECTIVE
- 12.2.2. PREREQUISITES
- 12.2.3. WORKBENCH SETUP
- 12.2.4. WORKBENCH – STATIC STRUCTURAL ANALYSIS
- 12.2.5. MECHANICAL – DEFINING THE STRUCTURAL ANALYSIS
- 12.2.6. MECHANICAL – POST-PROCESSING
- 12.2.7. WORKBENCH – RUNNING MULTIPLE SIMULATIONS
- 12.2.8. WORKBENCH – DESIGN EXPLORATION
- 12.2.9. CONCLUSION
- 13. Tutorial - Windshifter
- 13.1. Part A: Fluent Case Setup (Workbench)
- 13.2. Part B: Rocky Project Setup (Workbench)
- 13.2.1. OBJECTIVE
- 13.2.2. PREREQUISITES
- 13.2.3. GEOMETRY
- 13.2.4. WORKBENCH SETUP
- 13.2.5. PROJECT SETUP
- 13.2.6. RECEIVING CONVEYOR DEFINITION
- 13.2.7. MATERIAL AND SHAPE DEFINITIONS
- 13.2.8. MATERIAL DEFINITION
- 13.2.9. PARTICLE GROUP DEFINITION
- 13.2.10. MASS FLOW DEFINITION
- 13.2.11. FINISH PROJECT SETUP
- 13.2.12. PROCESS SIMULATION
- 13.2.13. POST PROCESSING
- 13.2.14. CONCLUSIONS
- 13.3. Part C: One-Way Coupling (Workbench)
- 14. Tutorial - Fluidized Bed
- 14.1. Part A: Fluent Case Setup
- 14.1.1. OBJECTIVES
- 14.1.2. PREREQUISITES
- 14.1.3. GEOMETRY INTRODUCTION
- 14.1.4. OPEN ANSYS FLUENT
- 14.1.5. IMPORT MESH
- 14.1.6. FLUID MESH SETUP
- 14.1.7. SINGLE PHASE SETUP
- 14.1.8. ENABLE ENERGY AND TURBULENCE
- 14.1.9. MATERIALS AND BOUNDARY CONDITIONS
- 14.1.10. METHODS
- 14.1.11. INITIALIZE AND CALCULATE
- 14.1.12. SAVE CASE
- 14.1.13. HELP
- 14.1.14. CONCLUSION
- 14.2. Part B: Setup and Processing in Rocky
- 14.2.1. OBJECTIVES
- 14.2.2. PREREQUISITES
- 14.2.3. GEOMETRY INTRODUCTION
- 14.2.4. PROJECT CREATION
- 14.2.5. PROJECT SETUP
- 14.2.6. VOLUMETRIC INLET
- 14.2.7. CONTINUE PROJECT SETUP
- 14.2.8. VISUALIZE VOLUMETRIC INLET BOUNDS
- 14.2.9. FINISH PROJECT SETUP
- 14.2.10. SETUP CONFIRMATION
- 14.2.11. SIMULATE PROJECT
- 14.2.12. SIMULATION
- 14.2.13. SAVE FOR RESTART
- 14.2.14. IMPORTING CFD SOLUTION
- 14.2.15. REDEFINE SOLVER
- 14.2.16. HELP
- 14.2.17. CONCLUSIONS
- 14.3. Part C: Post-Processing in Rocky
- 14.3.1. OBJECTIVES
- 14.3.2. PREREQUISITES
- 14.3.3. OPEN PROJECT
- 14.3.4. ROCKY – POST-PROCESSING
- 14.3.5. ROCKY – POST-PROCESSING – DIVISIONS TAGGING
- 14.3.6. ROCKY – POST-PROCESSING – CREATING A NEW CUBE
- 14.3.7. ROCKY – POST-PROCESSING – CREATING A HISTOGRAM
- 14.3.8. ROCKY – POST-PROCESSING – CREATING A FILTER
- 14.3.9. ROCKY – POST-PROCESSING – CREATING A TIME PLOT
- 14.3.10. ROCKY – POST-PROCESSING – PARTICLE TEMPERATURE
- 14.3.11. ROCKY – POST-PROCESSING – PRESSURE DROP
- 14.3.12. ROCKY – POST-PROCESSING – SOLID VOLUME FRACTION
- 14.3.13. ROCKY – POST-PROCESSING – FLUID VELOCITY
- 14.3.14. HELP – USER MANUAL
- 14.3.15. CONCLUSIONS
- 15. Tutorial - Transient Structural
- 15.1. Part A: Rocky Setup and Processing (Workbench)
- 15.1.1. OBJECTIVES
- 15.1.2. PREREQUISITES
- 15.1.3. GEOMETRY
- 15.1.4. GEOMETRY PREPARATION
- 15.1.5. WORKBENCH SETUP
- 15.1.6. VISUALIZING THE GEOMETRY
- 15.1.7. FEED CONVEYOR DEFINITION
- 15.1.8. FEED CONVEYOR – EXPRESSION/VARIABLES
- 15.1.9. RECEIVING CONVEYOR DEFINITION
- 15.1.10. PARTICLE AND MASS FLOW DEFINITION
- 15.1.11. EXTERNAL COUPLING AND SOLVER
- 15.1.12. SETUP CONFIRMATION
- 15.1.13. SIMULATE PROJECT
- 15.1.14. POST PROCESS – TIME PLOT
- 15.1.15. POST PROCESS – OUTPUT
- 15.1.16. CONCLUSION
- 15.2. Part B: Mechanical Coupling (Workbench)
- 16. Tutorial - Mixing Tank
- 16.1. Part A: Fluent Case Setup
- 16.1.1. OBJECTIVES
- 16.1.2. PREREQUISITES
- 16.1.3. GEOMETRY INTRODUCTION
- 16.1.4. OPEN ANSYS FLUENT
- 16.1.5. IMPORT CASE
- 16.1.6. FLUID MESH SETUP
- 16.1.7. FLUID PHASES SETUP
- 16.1.8. TURBULENCE DEFINITION
- 16.1.9. CELL ZONE CONDITIONS
- 16.1.10. BOUNDARY CONDITIONS
- 16.1.11. MESH INTERFACES
- 16.1.12. METHODS
- 16.1.13. CONTROLS
- 16.1.14. INITIALIZATION
- 16.1.15. CELL REGISTERS
- 16.1.16. INITIALIZE AND PATCH
- 16.1.17. CALCULATION SETUP
- 16.1.18. SETUP CONFIRMATION
- 16.1.19. CALCULATE PROJECT
- 16.1.20. CONCLUSION
- 16.2. Part B: Rocky Coupling Setup
- 16.2.1. OBJECTIVES
- 16.2.2. PREREQUISITES
- 16.2.3. GEOMETRY INTRODUCTION
- 16.2.4. PROJECT CREATION
- 16.2.5. PROJECT SETUP
- 16.2.6. GEOMETRY MOTION SYNC
- 16.2.7. PROJECT SETUP
- 16.2.8. IMPORTING CFD SOLUTION
- 16.2.9. IMPORTED MOTION FRAME
- 16.2.10. ASSIGN IMPORTED MOTION FRAME
- 16.2.11. FINISH PROJECT SETUP
- 16.2.12. SETUP CONFIRMATION
- 16.2.13. SIMULATE PROJECT
- 16.2.14. SETUP CONFIRMATION
- 16.2.15. POST-PROCESSING OPTIONS
- 16.2.16. CONCLUSIONS
- 17. Tutorial - Mixing Tee
- 17.1. Part A: Project Setup and Processing
- 17.1.1. OBJECTIVES
- 17.1.2. PREREQUISITES
- 17.1.3. GEOMETRY
- 17.1.4. (OPTIONAL) FLUENT CASE SETUP
- 17.1.5. (OPTIONAL) VERIFY EXPORT COMPONENT
- 17.1.6. (OPTIONAL) FLUENT CASE PROCESSING
- 17.1.7. ROCKY PROJECT CREATION
- 17.1.8. ROCKY PROJECT SETUP
- 17.1.9. PHYSICS DEFINITION - COARSE-GRAINING
- 17.1.10. PHYSICS DEFINITION - COARSE-GRAINING
- 17.1.11. ROCKY PROJECT SETUP
- 17.1.12. REMOVE GEOMETRIES
- 17.1.13. ROCKY PROJECT SETUP
- 17.1.14. PARTICLE GROUP DEFINITION
- 17.1.15. ROCKY PROJECT SETUP
- 17.1.16. COARSE-GRAINING COMPARISON
- 17.1.17. CFD COUPLING DEFINITION
- 17.1.18. CFD VISUALIZATION
- 17.1.19. FINISH PROJECT SETUP
- 17.1.20. SETUP CONFIRMATION
- 17.1.21. SIMULATE PROJECT
- 17.1.22. CONCLUSION
- 17.2. Part B: Post-Processing
- 18. Tutorial - Ribbon Blender
- 18.1. Part A: Project Setup and Processing
- 18.1.1. OBJECTIVES
- 18.1.2. PREREQUISITES
- 18.1.3. EXTERNAL MODULE
- 18.1.4. GEOMETRIES
- 18.1.5. PROJECT CREATION
- 18.1.6. MODULES DEFINITION
- 18.1.7. LIQUID BRIDGE DEFINITION
- 18.1.8. PROJECT SETUP
- 18.1.9. INTERACTION BETWEEN MATERIALS - LIQUID BRIDGE
- 18.1.10. PARTICLES AND INLETS DEFINITIONS
- 18.1.11. SETUP CONFIRMATION
- 18.1.12. SIMULATE PROJECT
- 18.1.13. CONCLUSION
- 18.2. Part B: Post-Processing (LMI Analysis)
- 18.2.1. OBJECTIVES
- 18.2.2. PREREQUISITES
- 18.2.3. OPEN PROJECT
- 18.2.4. POST-PROCESSING
- 18.2.5. EVALUATION OF MIXING DEGREE
- 18.2.6. MIXING INDEX
- 18.2.7. FILTERING ADDITIVE PARTICLES
- 18.2.8. TAGGING ADDITIVE PARTICLES
- 18.2.9. ADDITIVE MASS CALCULATION
- 18.2.10. SAMPLING
- 18.2.11. ADDITIVE MASS FRACTION
- 18.2.12. FILTERING
- 18.2.13. MIXING INDEX
- 18.2.14. CONCLUSION
- 18.3. Part C: Post-Processing (Liquid Distribution Analysis)
- 19. Tutorial - Backhoe Loader
- 19.1. Part A: Motion Comparison
- 19.2. Part B: Ansys Motion Coupling Setup
- 19.3. Part C: Rocky Setup and Processing
- 19.3.1. OBJECTIVE
- 19.3.2. PREREQUISITES
- 19.3.3. GEOMETRIES
- 19.3.4. PROJECT SETUP
- 19.3.5. TURN ON MODULES
- 19.3.6. IMPORT MOTIONS
- 19.3.7. FMU GEOMETRY IMPORT
- 19.3.8. MATERIAL DEFINITION
- 19.3.9. PARTICLE GROUP DEFINITION
- 19.3.10. SETUP CONFIRMATION
- 19.3.11. SIMULATE PROJECT
- 19.3.12. FORCE ANALYSIS - CURVES
- 19.3.13. EVALUATING BUCKET MASS
- 19.3.14. OUTPUT VALUE
- 19.3.15. STRESS ANALYSIS
- 19.3.16. HELP - SETUP GUIDE
- 19.3.17. CONCLUSION
- 20. Tutorial - Fertilizer Spreader
- 20.1. Part A: Project Setup and Processing
- 20.2. Part B: Post-Processing
- 20.2.1. OBJECTIVES
- 20.2.2. PREREQUISITES
- 20.2.3. OPEN PROJECT
- 20.2.4. POST PROCESSING - CUMULATIVE MASS FIELD
- 20.2.5. POST PROCESSING - PERIOD SELECTION
- 20.2.6. LAYER 1 - PARTICLES TIME SELECTION
- 20.2.7. LAYER 1 - PARTICLES TIME SELECTION
- 20.2.8. LAYER 2 - CUBE
- 20.2.9. LAYER 3 - EULERIAN STATISTICS
- 20.2.10. LAYER 4 - FILTER
- 20.2.11. CUMULATIVE MASS FIELD - EXTENSIONS
- 20.2.12. CONCLUSIONS
- 21. Tutorial - Bottling Line
- 21.1. Part A: Project Setup and Processing
- 21.1.1. OBJECTIVES
- 21.1.2. PREREQUISITES
- 21.1.3. GEOMETRIES
- 21.1.4. PROJECT CREATION
- 21.1.5. MOTION FRAMES
- 21.1.6. CONTINUE PROJECT SETUP
- 21.1.7. CONVEX AND CONCAVE DETECTION
- 21.1.8. PARTICLE GROUP DEFINITION
- 21.1.9. PARTICLE CUSTOM INLET DEFINITION
- 21.1.10. INPUT DEFINITION
- 21.1.11. CONTINUE PROJECT SETUP
- 21.1.12. SETUP CONFIRMATION
- 21.1.13. SIMULATE PROJECT
- 21.1.14. CONCLUSION
- 21.2. Part B: Post-Processing
- 22. Tutorial - Lawn Mower
- 23. Tutorial - Solver SDK
- 23.1. Part A: Working Environment Setup
- 23.2. Part B: Building a Custom Module
- 23.2.1. OBJECTIVE
- 23.2.2. PREREQUISITES
- 23.2.3. ROCKY SOLVER SDK OVERVIEW
- 23.2.4. EXAMPLE MODULE OVERVIEW
- 23.2.5. Get and Review Files that Define the Module
- 23.2.6. ENABLE AUTO-COMPLETE FOR MODULES DEVELOPMENT (WINDOWS - OPTIONAL)
- 23.2.7. COMPILATION OVERVIEW
- 23.2.8. STEP 1: EXECUTE BUILD COMMANDS (WINDOWS)
- 23.2.9. STEP 1: EXECUTE BUILD COMMANDS (LINUX)
- 23.2.10. STEP 2: VERIFY COMPILED FILES
- 23.2.11. TEST THE MODULE
- 23.2.12. HELP - SOLVER SDK MANUAL
- 23.2.13. CONCLUSION
- 24. Tutorial - Dam Break
- 24.1. Part A: Project Setup and Processing
- 24.1.1. OBJECTIVES
- 24.1.2. PREREQUISITES
- 24.1.3. GEOMETRY INTRODUCTION
- 24.1.4. PROJECT CREATION
- 24.1.5. INITIAL SETUP
- 24.1.6. MOTION FRAMES
- 24.1.7. FLUID DEFINITION
- 24.1.8. SPH PARAMETERS
- 24.1.9. INLET DEFINITION
- 24.1.10. DOMAIN SETTINGS
- 24.1.11. DOMAIN AND SOLVER
- 24.1.12. SETUP CONFIRMATION
- 24.1.13. SIMULATION SUMMARY
- 24.1.14. CONCLUSION
- 24.2. Part B: Post-Processing
- 25. Tutorial - Slurry Mill
- 25.1. Part A: Project Setup and Processing
- 25.1.1. OBJECTIVES
- 25.1.2. PREREQUISITES
- 25.1.3. GEOMETRY
- 25.1.4. PROJECT CREATION
- 25.1.5. INITIAL SETUP
- 25.1.6. MOTION FRAMES
- 25.1.7. MILL SETUP
- 25.1.8. MATERIALS
- 25.1.9. PARTICLES
- 25.1.10. SPH - FLUID SETUP
- 25.1.11. INLET DEFINITION
- 25.1.12. DOMAIN AND SOLVER
- 25.1.13. SETUP CONFIRMATION
- 25.1.14. SIMULATION SUMMARY
- 25.1.15. HELP - USER MANUAL
- 25.2. Part B: Post-Processing
- 25.2.1. OBJECTIVES
- 25.2.2. PREREQUISITES
- 25.2.3. OPEN PROJECT
- 25.2.4. SLURRY FILLING
- 25.2.5. SLURRY FILLING CALCULATION
- 25.2.6. SLURRY FILLING - RESULT
- 25.2.7. POWER ANALYSIS
- 25.2.8. SLURRY FILLING - RESULT
- 25.2.9. POWER ANALYSIS
- 25.2.10. POWER ANALYSIS - POOLING
- 25.2.11. SLURRY BEHAVIOR
- 25.2.12. POWER ANALYSIS
- 25.2.13. CONCLUSION
- 25.2.14. BIBLIOGRAPHY