All About ANSYS Fluent- Absolute Beginner to Expert

All About ANSYS Fluent: Absolute Beginner to Expert, available at $34.99, has an average rating of 3.15, with 48 lectures, based on 13 reviews, and has 133 subscribers.

You will learn about Get introduced to CFD and ANSYS fluent Understand methods of meshing appropriate for your CFD model Understand appropriate laminar and turbulent model for your simulation problem Learn how to set-up a laminar and turbulent flow simulation Learn aerodynamic CFD modelling and simulation Learn CFD post-processing and result visualization Lay hand on some practical exercises on CFD simulation This course is ideal for individuals who are CFD students or Engineering students or Beginner fluid mechanic students It is particularly useful for CFD students or Engineering students or Beginner fluid mechanic students.

Enroll now: All About ANSYS Fluent: Absolute Beginner to Expert

Summary

Title: All About ANSYS Fluent: Absolute Beginner to Expert

Price: $34.99

Average Rating: 3.15

Number of Lectures: 48

Number of Published Lectures: 48

Number of Curriculum Items: 48

Number of Published Curriculum Objects: 48

Original Price: $199.99

Quality Status: approved

Status: Live

What You Will Learn

Get introduced to CFD and ANSYS fluent

Understand methods of meshing appropriate for your CFD model

Understand appropriate laminar and turbulent model for your simulation problem

Learn how to set-up a laminar and turbulent flow simulation

Learn aerodynamic CFD modelling and simulation

Learn CFD post-processing and result visualization

Lay hand on some practical exercises on CFD simulation

Who Should Attend

CFD students

Engineering students

Beginner fluid mechanic students

Target Audiences

CFD students

Engineering students

Beginner fluid mechanic students

This course on computational fluid dynamics (CFD) simulation in ANSYS fluent is designed and developed to bring you from an absolute beginner to become an expert of CFD simulation. I have schedule the teaching to engage you not only in the theoretical simulation but take many practical CFD simulation exercises for each section and sub-section of the course.

This course primarily introduces you to choosing the appropriate mesh method for your CFD model and teaches you how to set-up the method for your CFD model and teaches you how to set-up the method. Also, you will be free from the confusion of which CFD turbulent model is the appropriate model for my flow simulation.

Here are the course outline:

– Introduction to using ANSYS Fluent in ANSYS Workbench

– Meshing and Mesh Control in ANSYS Fluent

– Getting Understanding of Appropriate CFD Model for your CFD Projects

– Introduction to Ansys DesignModeler for CFD Applications

– Laminar Fluid Flow Study: CFD simulation in ANSYS Fluent

– Bernoulli’s principle and its CFD Application in ANSYS Fluent

– Supersonic Flow Over a Wing

– CFD application for multiphase flow

– Aerodynamic study of airfoil NACA 0013

– Aerodynamic Study of Formula SAE Car

– Aerodynamic study of airbus

– Flow in a Process Injection Mixing Pipe

– Flow in a Static Mixer (Refined Mesh)

– Simulating Flow in a Static Mixer Using Workbench

Course Curriculum

Chapter 1: Introduction to using ANSYS Fluent in ANSYS Workbench

Lecture 1: 1.1 Introduction to ANSYS Fluent and CFD

Lecture 2: 1.3 Generating Flow Domain 3D CAD IN SOLIDWORKS

Lecture 3: 1.4 Introducing Ansys DesignModeler

Chapter 2: Meshing and Mesh Control in ANSYS Fluent

Lecture 1: 2.1 Method of Meshing: Hex Meshing

Lecture 2: 2.2 Method of Meshing: Tetrahedral Meshing

Lecture 3: 2.3 Method of Meshing: Sweep Meshing

Lecture 4: 2.4 Method of Meshing: Multizone Meshing

Lecture 5: 2.5 Method of Meshing: Cartesian Meshing

Lecture 6: 2.6 Mesh Optimization: Mesh Sizing

Lecture 7: 2.7 Mesh Optimization: Mesh Refinement

Chapter 3: Getting Understanding of Appropriate CFD Model for your CFD Projects

Lecture 1: 3.1 Introduction to Inviscid CFD Model

Lecture 2: 3.2 Simulation Exercise on Inviscid CFD Model

Lecture 3: 3.3 Exploring Laminar CFD Model

Lecture 4: 3.4 Introduction to Spalart Allmaras Model

Lecture 5: 3.5 Spalart Allmaras Model Exercise

Lecture 6: 3.6 Introduction to k-epsilon Model

Lecture 7: 3.7 k-epsilon Model Exercise

Chapter 4: Introduction to Ansys DesignModeler for CFD Applications

Lecture 1: 4.1 Introduction to DesignModeler

Lecture 2: 4.2. DesignModel Toolbox and other tools

Chapter 5: Laminar Fluid Flow Study: CFD simulation in ANSYS Fluent

Lecture 1: 5.1 LAMINAR FLOW 1. Introduction

Lecture 2: 5.2 LAMINAR FLOW 2. 3D Flow through a Pipe

Lecture 3: 5.3 LAMINAR FLOW 3. 3D LAMINAR FLOW with Multiphase model

Chapter 6: Bernoullis principle and its CFD Application in ANSYS Fluent

Lecture 1: 6.1 Bernoullis Principle Overview

Chapter 7: Compressible Air Flow over Stationary 2D shapes

Lecture 1: 7.1 Section Exercise Overview

Lecture 2: 7.2 ANSYS Fluent: Steady Flow Around a Stationary Cylinder

Lecture 3: 7.3 ANSYS Fluent Steady Flow Around a Stationary Triangle (Not Final Simulation)

Lecture 4: 7.4 ANSYS Fluent: Steady Flow Around a Stationary Cylinder (RE-WORK)

Lecture 5: 7.5 ANSYS Fluent: Steady Flow Around a Stationary Triangle (RE-WORK)

Lecture 6: 7.6 ANSYS Fluent: Steady Flow Around a Stationary Square

Lecture 7: 7.7 ANSYS Fluent Steady Flow Around a Stationary Pentagon

Lecture 8: 7.8 ANSYS Fluent Steady Flow Around a Stationary Octagon

Chapter 8: Compressible Flow over Rotating 2D Cylinder

Lecture 1: 8.1 3D Domain Geometry Preparation

Lecture 2: 8.2Mesh and Mesh Manipulation

Lecture 3: 8.3 Equivalent Steady Analysis: Fluent CFD Simulation Set-up

Lecture 4: 8.4 Equivalent Steady Analysis: Iterations Observation

Lecture 5: 8.5 Equivalent Transient Analysis: Fluent CFD Simulation Set-up

Lecture 6: 8.6 Equivalent Transient Analysis: Iterations Observation

Lecture 7: 8.7 Fluent CFD Post-Processing for Rotating Cylinder Analysis

Chapter 9: Post-processing in ANSYS Fluent: Ahmed Body Aerodynamic Simulation as Case Study

Lecture 1: 9.1 Ahmed Body 3D Geometry Modelling

Lecture 2: 9.2 External Flow Fluid Domain Modelling

Lecture 3: 9.3 Tetrahedral Mesh for Ahmed Body

Lecture 4: 9.4 Alternative Method for Fluid domain Modelling for Optimized CFD Analysis

Lecture 5: 9.5 External Flow Fluid Domain Modelling for Sweep Mesh

Lecture 6: 9.6 Sweep plus tetrahedral mesh method for optimized CFD analysis

Lecture 7: 9.7 CFD Simulation Set-up for Ahmed Body External Fluid Flow

Lecture 8: 9.8 Steady CFD Simulation Iteration for Ahmed Body External Fluid Flow

Lecture 9: 9.9 Transient CFD Simulation Iteration for Ahmed Body External Fluid Flow

Lecture 10: 9.10 Ahmed Body External Flow CFD Post-processing

Instructors

Olaniyi Damilare
Financial Market Trader | Engineer

Rating Distribution

1 stars: 2 votes

2 stars: 2 votes

3 stars: 3 votes

4 stars: 5 votes

5 stars: 1 votes

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