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Mastering Turbomachinery Cfd Simulations With Ansys Cfx
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[Image: b6a94f6c2cd4ebb2f2a5d2f73a41d859.jpg]

Published 11/2023
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 5.13 GB | Duration: 3h 55m

Unlock the Power of Turbomachinery CFD: Become a Pro with Ansys CFX!

[b]What you'll learn[/b]
Perform challenging CFD simulations for turbomachinery applications
Model, mesh and analyze turbomachinery components using Ansys CFX software
Performance evaluation of turbomachinery components
Compare and validate analysis results with test data
Gain expertise in interpreting simulation results, visualizing flow patterns, and extracting critical performance metrics

[b]Requirements[/b]
Basic understanding turbomachinery components and CFD
Ansys 2023 R1 or higher version installed.

[b]Description[/b]
Introduction: "Mastering Turbomachinery CFD Simulations with Ansys CFX" course is designed to help you gain the knowledge needed to navigate the intricate field of turbomachinery design and analysis with confidence. This course provides the complete fundamentals of CFD simulations for turbomachinery components using Ansys CFX.Major part of course content includes demonstration of analysis for turbomachinery components like axial/centrifugal compressors, axial/radial turbines, pumps, hydro turbines, wind turbines, etc. Preliminary design methods using Ansys tools are also explained in few chapters. Advanced design methods and design tools are mostly used for real world turbomachinery problems and it is not covered in this course.Basic mesh generation method is also specified in few chapters of this course. Complete course on mesh generation using Ansys Turbogrid is already available in Udemy. Two assignments are provided in this course for practicing Ansys CFX turbomachinery simulations. This will help to get hands on experience with the software.What will I learn?How to model, mesh and analyse turbomachinery components using Ansys CFX software.Analysis of turbo components like axial/radial compressors, turbines, pumps, blowers, wind turbines, etc.Setting the problem, specifying boundary conditions in CFX Preprocessor, solving the case in CFX solver and post processing in CFX Post processor.Steady state and transient CFD simulations.Performance evaluation of turbomachinery components.Basic checks to be done and error handling methods in Ansys CFX.By following the steps, students/professionals can quickly learn this software and use for real world problems.RequirementsBasic understanding turbomachinery components and CFDAnsys 2023 R1 or higher version installed.Computer with at least 4GB RAM

Overview
Section 1: Introduction
Lecture 1 Course Introduction
Lecture 2 Introduction to Ansys CFX
Lecture 3 Course contents and workflow
Section 2: Axial compressor CFD analysis (Rotor 37)
Lecture 4 Rotor 37 Case setup
Lecture 5 Rotor 37 post processing
Section 3: Multi stage axial compressor CFD analysis
Lecture 6 Multi stage compressor pre processing
Lecture 7 Rotor stator interface
Lecture 8 Multi stage compressor pre processing (contd..)
Lecture 9 Turbulence models
Lecture 10 CFD Solution and Post processing
Section 4: Design and analysis of axial fan stage
Lecture 11 Design of axial fan stage
Lecture 12 Meshing and Pre processing axial fan stage
Lecture 13 Post processing CFD results
Section 5: Assignment 1
Lecture 14 CFD Analysis of rotor blade
Section 6: Design and analysis of centrifugal compressor
Lecture 15 Design of centrifugal compressor
Lecture 16 Case setup and solution
Section 7: Analysis of centrifugal compressor with vane diffuser and volute
Lecture 17 Case introduction and workbench meshing
Lecture 18 Pre processing centrifugal compressor
Lecture 19 Post processing centrifugal compressor
Section 8: Axial turbine stage analysis
Lecture 20 Axial turbine stage analysis
Section 9: Wind turbine analysis
Lecture 21 Wind turbine fluid domain creation
Lecture 22 Fluid domain meshing
Lecture 23 Case setup and solution
Lecture 24 Post processing results
Section 10: Hydroturbine simulation
Lecture 25 Francis Turbine analysis
Section 11: Assignment 2
Lecture 26 Assignment 2 Problem
Lecture 27 Assignment 2 Solution
Section 12: Parametric analysis of rotor 37
Lecture 28 Compressor characteristics generation (Rotor37)
Section 13: Inlet profile boundary condition
Lecture 29 Profile boundary condition method1
Lecture 30 Profile boundary condition method2
Section 14: Transient analysis
Lecture 31 Introduction
Lecture 32 Transient analysis - Profile transformation
Lecture 33 Transient analysis - Time transformation
Lecture 34 Course Conclusion
Engineers, researchers, and students with basic knowledge on turbomachinery components and interested in learning turbomachinery CFD simulations

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