For Geometry, Mesh, FLUENT Case & Workbench files, visit Contact autoabraham@ for 1. CFD flow and thermal analysis using ANSYS FLUENT 2. Structural, Thermal & Modal Analysis in Ansys Workbench Timestamps: 00:08 Introduction to Turbine and Torque Calculation 💡 00:34 Saving the Workbench File 💾 00:39 Creating the Turbine Geometry using Design Modeler 📐 02:45 Modifying the Turbine Geometry by Removing Unwanted Portions 🖍️ 04:59 Creating Enclosure Around the Turbine Blades 🔄 06:32 Creating Inlet and Pressure Outlet Surfaces for the Flow Simulation ➰ 07:06 Naming the Geometries and Bodies for Identification ♻️ 09:01 Meshing the Geometry and Checking Mesh Size 🔳 10:07 Setting Up Transient Analysis and Enabling Time Transcend 🔄 10:55 Enabling Gravity and Choosing Viscous Model ⚖️ 11:54 Assigning Material and Creating Cell Zone Conditions 🧪 13:00 Defining Mesh Motion for Rotating Body and Assigning Speed of Rotation 🔀 14:10 Setting Boundary Conditions for Inlet Velocity Magnitude ⤵️ 15:58 Creating a Report File to Monitor Torque 📊 18:19 Creating Cross-section Plane and Defining Commands to Save Plots 📸 20:56 Running the Calculation with Specified Time Steps and Step Size ⏰ 24:01 Locating the Saved Contour Plots and Moment Data 💾 In this tutorial video, we will learn about turbine and torque calculation. You will discover the step-by-step process of saving the Workbench file, creating turbine geometry using Design Modeler, modifying the turbine geometry by removing unwanted portions, and creating an enclosure around the turbine blades. Additionally, we will explore how to create inlet and pressure outlet surfaces for flow simulation, name the geometries and bodies for identification, and mesh the geometry with a focus on checking mesh size. Furthermore, we will dive into setting up transient analysis, enabling time transcend, gravity, and choosing the viscous model. Assigning material and creating cell zone conditions will also be covered. Moreover, you will gain knowledge on defining mesh motion for rotating body and assigning the speed of rotation. We will then proceed to setting boundary conditions for inlet velocity magnitude, creating a report file to monitor torque, creating a cross-section plane, and defining commands to save plots. Finally, we will run the calculation with specified time steps and step size, followed by locating the saved contour plots and moment data. Tags: Turbine, Torque Calculation, Workbench, Design Modeler, Geometry, Flow Simulation, Meshing, Transient Analysis, Gravity, Viscous Model, Material, Cell Zone Conditions, Mesh Motion, Rotating Body, Boundary Conditions, Inlet Velocity Magnitude, Report File, Cross-section Plane, Commands, Plots, Calculation, Contour Plots, Moment Data. Hashtags: #Turbine #TorqueCalculation #Workbench #DesignModeler #Geometry #FlowSimulation #Meshing #TransientAnalysis #Gravity #ViscousModel #Material #CellZoneConditions #MeshMotion #RotatingBody #BoundaryConditions #InletVelocityMagnitude #ReportFile #CrossSectionPlane #Commands #Plots #Calculation #ContourPlots #MomentData
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