Learn Numerical Experiments Using Ansys Fluent

[LeeAndro]

Last updated 3/2022MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHzLanguage: English | Size: 6.94 GB | Duration: 13h 18m​

A Course on Computational Fluid Dynamics

What you'll learn
Knowledge of Numerical Methods
Understand the various application of ANSYS Fluent
Develop a right mindset to tackle complex problems Numerical Simulation
Perform Numerical Expents using ANSYS Fluent
Build an appropriate Solution Strategy
Application based Physics Setup
Techniques to Compare Expental and Numerical results
Assess the quality of results
Efficiently post process the numerical results

Requirements
None, you will learn everything from the basics

Description
Do you want to Learn and Understand Application Oriented Computational Fluid Dynamics with the help of ANSYS FluentFrom the comfort of your home, at your own pace, without attending classes, or push your way through endless textbooks/online guides. Then boom! You are at the right place Even if you do not know Numerical Simulations or have no idea about the procedures involved in solving any simulations. this course will make you learn to understand and get trained with all the tools to build your real case into an appropriate numerical setup.With knowledge of Computational Fluid Dynamics and familiarity with Fluid Flow Solver ANSYS FLUENT, you can solve the broadest range of fluid flow problems.You will learn to perform Numerical Simulation and investigate the functionality of the design/model.Additionally, from this course, you'll learn and get acquainted with 3d CAD software - Creo Parametric.By the end of this course, you will be confident with immense knowledge to create and set up a numerical expent.The complete package will allow you to understand the appropriate methodology followed to perform any numerical simulation.MAKING YOU AN EXPERT AND A PROFESSIONAL EEERSign up today, and here's what you'll get:· Over 13+ hours of HD video content· All the knowledge you need to start building any case· Assistance for your numerical study/cases· The world's best course on ANSYS Fluent that you can buy.You do not need to have any prerequisites for completing this course, You will learn everything from the scratchBy the end of this course you will be familiar with these concepts:· Importance of Computational Fluid Dynamics· Governing equations involved in Fluid Flow Simulations· Overview of the Flow Solvers (Pressure-Based and Density-Based)· Algorithms and Formulations· Turbulent Flows· Turbulence Models· RANS Modelling· Various modeling options in ANSYS DesignModeler· Various modeling options in ANSYS SpaceClaim· Importing Design files from CAD software· Types of Pressure (Absolute, Operating, and Guage)· Spatial Discretisation Schemes· Creating Domain· Structured and Unstructured Grid Generation in ANSYS Meshing module· Numerical scheme setup· Dealing with solution methods· Comparing CFD vs., Expental study· Verification of Simulation (Sanity Checks)· Creating Report Definitions· Monitoring Convergence· Post-processing of Results· Importance of Y+· Boundary Layers and Division of Boundary layers· Modeling Strats (Wall Functions and Resolving the Boundary Layer)· Other technical topics (Shock waves, Shock Relations, Hand Calculations)Don't waste another minute of your precious life on poor-quality videos on free platforms with trainers with no real-world in-person teaching experience. Your learning and your are worth more than that.As you sit there contemplating the sea of different courses, you'll realize that there's no reason to deliberate. The best course is right in front of your eyes.I am looking forward to Teaching you all About Computational Fluid Dynamics using ANSYS Fluent

Overview
Section 1: Introduction

Lecture 1 Introduction

Lecture 2 Join the Community

Section 2: Introduction to Computational Fluid Dynamics

Lecture 3 Importance of CFD

Lecture 4 CFD - As a Design Tool!

Lecture 5 Importance of Governing Equations

Lecture 6 Overview of Flow Solver

Lecture 7 Pressure Based Solver

Lecture 8 Pressure Based Segregated Algorithm

Lecture 9 Pressure Based Coupled Algorithm

Lecture 10 Density Based Solver

Lecture 11 Formulations in Density Based Solver

Lecture 12 Explicit Formulation in Density Based Solver

Lecture 13 What is turbulent flow

Lecture 14 Turbulence Models

Lecture 15 RANS Modeling

Section 3: Your First Simulation

Lecture 16 Brief on the Workbench Window

Lecture 17 Modelling the geometry in Design Modeler

Lecture 18 Modelling the geometry in Space claim

Lecture 19 Modelling the geometry in CAD software and Importing in Workbench

Lecture 20 Problem definition

Lecture 21 Meshing the Domain

Lecture 22 Setting up and Solving the Case

Lecture 23 Visualising the flow field

Section 4: "Types of Pressure in the Solver" and "Spatial Discretisation"

Lecture 24 What are the different Pressures involved in Simulation

Lecture 25 A brief review of Spatial Discretisation

Section 5: Numerical Simulation of Blunt Body

Lecture 26 Understanding the flow physics of High speed bodies

Lecture 27 Creating the Domain in the Design Modeler

Lecture 28 Adding a Surface

Lecture 29 Dividing the Domain

Lecture 30 Creating the Domain in the SpaceClaim

Lecture 31 Dividing the Domain (in SpaceClaim)

Lecture 32 Creating the Domain in CAD software ( and Importing)

Lecture 33 Calculating the Density based on Ideal Gas Law

Lecture 34 Creating of a Structured Grid

Lecture 35 Naming the Boundaries

Lecture 36 Numerical Scheme setup

Lecture 37 Chosing the Solution Methods

Lecture 38 Increasing the CFL number

Lecture 39 Convergence of Solution

Lecture 40 Calculate the Coefficient of Drag

Lecture 41 Creating a Contour and Discussing on the Size of Domain

Lecture 42 Creating a Plot

Lecture 43 CFD Post - Contour, Vector, Streamline, Data File Quantities

Lecture 44 Charts in CFD post

Lecture 45 Verify the Mass Flux

Lecture 46 Using Normal Shock Relations for the verification of simulation

Section 6: Using CFD to improve the Aerodynamics

Lecture 47 Introduction - Blunt body with Spike

Lecture 48 Modelling of the Domain

Lecture 49 Dividing the domain

Lecture 50 Grid Generation

Lecture 51 Physics Setup

Lecture 52 Analysing the Monitors

Lecture 53 Increasing the CFL number

Lecture 54 Comparing the present CFD and Expental Study

Lecture 55 Post processing the results

Section 7: Numerical Simulation of a Nose-Cone Cylinder ( Missile Body)

Lecture 56 Introduction - Expental Case

Lecture 57 Modelling the Nose-Cone geometry in Design Modeler

Lecture 58 Grid Generation and Biasing

Lecture 59 Setting up the Physics

Lecture 60 Convergene and Comparing the CFD results with Expental Study

Lecture 61 Comparison of Expental with Present CFD - Coefficient of Drag

Lecture 62 Compaison of Results with different Grid Sizes

Lecture 63 A light on 3d Simulation !

Section 8: Numerical Simulation of High Speed Diamond Aerofoils

Lecture 64 Introduction to the Case

Lecture 65 Building the Domain

Lecture 66 Grid Generation

Lecture 67 Setting up the Physics

Lecture 68 Investigating the flow field at different Angle of Attack

Lecture 69 Verification of Results using Theta-Beta-Mach Chart

Section 9: CFD study of a Rocket Ee

Lecture 70 Introduction to Rocket ee (and related equations)

Lecture 71 Geometry of the Rocket in CAD (RD-106)

Lecture 72 Dividing the domain into snts

Lecture 73 Grid Generation

Lecture 74 Understanding the Boundary Conditions and Hand Calculations

Lecture 75 Setting up the case in Fluent

Lecture 76 Analysing the Convergence

Lecture 77 Results: Hand Calculations Vs. CFD

Section 10: Simulating a Rocket Ee Plume

Lecture 78 Introduction to the Case

Lecture 79 Creating the Domain

Lecture 80 Mirror the Body and Split the Surface

Lecture 81 Discretising the Domain

Lecture 82 Setting up the Physics

Lecture 83 Verifying the Convergence

Lecture 84 CFD Post Processing

Section 11: Y+ and Wall Functions

Lecture 85 What is a Boundary Layer

Lecture 86 Division of a Boundary Layer

Lecture 87 Velocity and Y in Dimensionless form

Lecture 88 Y+ Graph

Lecture 89 Modeling Strats (Wall Function or Resolving Viscous Sublayer)

Lecture 90 Limits of Wall Functions and Range of Y+ Values

Lecture 91 Final Thoughts on Y+

Lecture 92 Use of Online Tools for calculating Y+ and First Cell Height

Lecture 93 Measuring the Cell height in ANSYS meshing module

Section 12: Bonus Lecture

Lecture 94 Bonus Lecture

Professionals, who wish to enlighten their knowledge on Computational Fluid Dynamics.,Researchers willing to use CFD as a research tool,Industrial Experts curious to adapt CFD in industrial applications,Students desiring to learn ANSYS Fluent from the concepts.

HomePage:

https://www.udemy.com/course/learn-ansys-fluent/

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