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SILABUS DE ANSYS FLUENT - INTRODUCTORY Dia1: Mañana 8:00 – 10:30 am. Lecture – Introduction Fluent A. Lecture 1: Introduction to CFD Methodology a. How does CFD work? b. Step by step c. Introduction to Ansys Workbench d. Introduction to Ansys meshing e. Meshing Process in Ansys Meshing f. Ansys Meshing Graphics User Interface 11:00 – 14:00 g. Generation of Geometry Models h. Importing CAD Geometry i. Mesh Generation j. Mesh Quality B. Workshop0 – Training C. Workshop1 – Mixing Tee Dia2: Lecture 2: Boundary Conditions a. Materials Properties b. Options for Defining Common Properties c. Cell Zones and Boundary Zones d. Cell Zones – Definitions e. Setting Boundary Conditions Data f. Specifying Well Posed Boundary Conditions g. Auxiliary Operations h. Buoyancy B. Workshop2 – Discrete Phase Model 10:45 – 14:00 am. A. Lecture 3: Post –Processing a. Plots b. Reports c. CFD – Post d. GUI Layout e. }Creating Locations f. User Defined Variables g. Tables h. Charts i. Case Comparison j. Custom Field Functions in Fluent k. Limitations of CFD – Post l. Locations Types m. Color, Render and View n. User Defined Variables o. Hybrid vs. Conservative p. Expressions Tab B. Workshop3 – Post Processing Dia3: Mañana 8:00– 10:30 am. A. Lecture 4: Solver Settings a. Solution Procedure Overview b. Available Solvers c. Choosing a Solver – Pressure Based d. Choosing a Solver – Density Based e. DBS Iterative Procedure – Courant Number f. PBS Interpolation Methods for Pressure g. Discretization h. Interpolation Methods i. Initialization j. Standard Initialization and Patch Values k. Hybrid Initialization l. FMG Initialization m. Convergence n. Convergence Monitors – Residuals o. Convergence Monitors – Forces and Surfaces p. Convergence Difficulties q. Accelerating Convergence r. Others B. Workshop4 –Airfoil 11:00 – 14:00pm. C. Lecture 5: Turbulence Modeling a. Turbulent Flow Structures b. Mean and Instantaneous Velocities c. Overview of Computational Approaches d. RANS Modeling: Averaging e. RANS Modeling: The Closure Problem f. Turbulence Models Available in Fluent g. Others models in Fluent h. Turbulence Near the Wall i. Predicting Near Wall Cell Size j. Limitations of Wall Functions k. Enhanced Wall Treatment l. Choosing a Near Wall Treatment m. Examples of Turbulent Flows D. Lecture 6: Heat Transfer a. Introduction b. Energy Equation c. Thermal Wall Boundary Conditions d. Applications e. 1 – Way Thermal FSI Simulation f. Others E. Workshop5 – Electronics Cooling Dia4: Mañana 8:00 – 10:30 am A. Lecture 7: Moving Zones a. Inserting Non – conformal Interfaces b. Periodic Boundary Condition c. Rotating Zones d. Dynamic Mesh e. Motion in Solid Zones B. Workshop 6 – MRF and Sliding Meshes C. Lecture 8: Best Practices for CFD a. Error Types b. Best Practices for Meshing c. Capture Flow Physics d. Mesh Quality D. Lecture 9: Transient Simulations a. Unsteady Flow b. Time Step c. Setup d. Post – Processing 11:00 – 14:00 am A. Workshop 7 – Transient Tank Flush B. Workshop 8 – Vortex Shedding C. Lecture 10: User Defined Functions (UDFs) a. Data Structure & Macros b. Examples c. UDF Step by step www.infouni.uni.edu.pe

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Dia2:Lecture 2: Boundary Conditionsa. Materials Propertiesb. Options for Defining Common Propertiesc. Cell Zones and Boundary Zonesd. Cell Zones – Definitionse. Setting Boundary Conditions Dataf. Specifying Well Posed Boundary Conditionsg. Auxiliary Operationsh. BuoyancyB. Workshop2 – Discrete Phase Model10:45 – 14:00 am.A. Lecture 3: Post –Processinga. Plotsb. Reportsc. CFD – Postd. GUI Layoute. }Creating Locationsf. User Defined Variablesg. Tablesh. Chartsi. Case Comparisonj. Custom Field Functions in Fluent

k. Limitations of CFD – Postl. Locations Typesm. Color, Render and Viewn. User Defined Variableso. Hybrid vs. Conservativep. Expressions Tab

B. Workshop3 – Post ProcessingDia3:Mañana8:00– 10:30 am.A. Lecture 4: Solver Settingsa. Solution Procedure Overviewb. Available Solversc. Choosing a Solver – Pressure Based d. Choosing a Solver – Density Basede. DBS Iterative Procedure – Courant Numberf. PBS Interpolation Methods for Pressureg. Discretizationh. Interpolation Methodsi. Initializationj. Standard Initialization and Patch Valuesk. Hybrid Initializationl. FMG Initializationm. Convergencen. Convergence Monitors – Residuals o. Convergence Monitors – Forces and Surfacesp. Convergence Difficultiesq. Accelerating Convergencer. OthersB. Workshop4 –Airfoil11:00 – 14:00pm. C. Lecture 5: Turbulence Modelinga. Turbulent Flow Structuresb. Mean and Instantaneous Velocitiesc. Overview of Computational Approaches d. RANS Modeling: Averaginge. RANS Modeling: The Closure Problemf. Turbulence Models Available in Fluentg. Others models in Fluenth. Turbulence Near the Wall

i. Predicting Near Wall Cell Sizej. Limitations of Wall Functionsk. Enhanced Wall Treatment l. Choosing a Near Wall Treatmentm. Examples of Turbulent FlowsD. Lecture 6: Heat Transfera. Introductionb. Energy Equationc. Thermal Wall Boundary Conditionsd. Applicationse. 1 – Way Thermal FSI Simulationf. Others E. Workshop5 – Electronics CoolingDia4:Mañana8:00 – 10:30 amA. Lecture 7: Moving Zonesa. Inserting Non – conformal Interfacesb. Periodic Boundary Conditionc. Rotating Zones d. Dynamic Mesh e. Motion in Solid ZonesB. Workshop 6 – MRF and Sliding MeshesC. Lecture 8: Best Practices for CFDa. Error Typesb. Best Practices for Meshingc. Capture Flow Physicsd. Mesh QualityD. Lecture 9: Transient Simulations a. Unsteady Flowb. Time Stepc. Setupd. Post – Processing 11:00 – 14:00 amA. Workshop 7 – Transient Tank FlushB. Workshop 8 – Vortex SheddingC. Lecture 10: User Defined Functions (UDFs)a. Data Structure & Macrosb. Examplesc. UDF Step by step

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