ANSYS from Drawing to Results Visualization CFD and FEA

ANSYS from Drawing to Results Visualization – CFD and FEA, available at $69.99, has an average rating of 4.35, with 190 lectures, 2 quizzes, based on 238 reviews, and has 1024 subscribers.

You will learn about In-detailed explanation of DesignModeler & ANSYS Meshing In-detailed five examples of real-life applications using ANSYS Mechanical & ANSYS FLUENT ANSYS Workbench Parametric Analysis Basic simulation and CFD fundamentals Basics of schematic diagrams infographic designing and representation for scientific targets using Adobe Illustrator and PowerPoint. Exporting results files in a high quality and proper formats as recommended by the scientific research journals. How to save ANSYS project with different formats This course is ideal for individuals who are Engineering and science students who are interested in modeling of physical phenomena using ANSYS It is particularly useful for Engineering and science students who are interested in modeling of physical phenomena using ANSYS.

Enroll now: ANSYS from Drawing to Results Visualization – CFD and FEA

Summary

Title: ANSYS from Drawing to Results Visualization – CFD and FEA

Price: $69.99

Average Rating: 4.35

Number of Lectures: 190

Number of Quizzes: 2

Number of Published Lectures: 190

Number of Published Quizzes: 2

Number of Curriculum Items: 203

Number of Published Curriculum Objects: 203

Number of Practice Tests: 1

Number of Published Practice Tests: 1

Original Price: $19.99

Quality Status: approved

Status: Live

What You Will Learn

In-detailed explanation of DesignModeler & ANSYS Meshing

In-detailed five examples of real-life applications using ANSYS Mechanical & ANSYS FLUENT

ANSYS Workbench

Parametric Analysis

Basic simulation and CFD fundamentals

Basics of schematic diagrams infographic designing and representation for scientific targets using Adobe Illustrator and PowerPoint.

Exporting results files in a high quality and proper formats as recommended by the scientific research journals.

How to save ANSYS project with different formats

Who Should Attend

Engineering and science students who are interested in modeling of physical phenomena using ANSYS

Target Audiences

Engineering and science students who are interested in modeling of physical phenomena using ANSYS

Welcome to our ANSYS professional course!

We are glad to present this comprehensive course that contains at the beginning number of crucial fundamentals and basics related to the big idea of simulation and CFD in a simple and interesting way.

After that, a detailed explanation of DesignModeler is presented with a high quality and organized content and examples with a step by step illustration.

The next section is the ANSYS Meshing that has been divided into several videos with a well-organized flow of ideas in order to simplify the meshing process and generate high-quality structured hexa mesh. Also, the theory related to meshing is summarized in animated presentations. In addition, 3 special tools have been programmed for the purpose of meshing optimization.

After meshing, 5 real-world application examples, with a special experimentally validated example that simulates the solar load, are solved using ANSYS Mechanical Thermal, ANSYS Mechanical Structural, and ANSYS FLUENT. Also, the parametric analysis has been used in one of the examples. Through those examples, you can see the powerful tools of ANSYS Workbench and the different results we can get. The results of the first four examples have been verified by comparing them to analytical calculations and empirical correlations. The last example is validated with the experimentally measured data for a box solar cooker using both solar load methods (i.e. experimental inputs and solar calculator).

Throughout the course, multiple practice activities are continuously added to help the student mastering the key ideas of each section of the course.

Course Curriculum

Chapter 1: Course Overview

Lecture 1: Introduction

Chapter 2: Things You Should Know before Starting the Course

Lecture 1: Important Concepts

Lecture 2: Engineering Problems Solving Methods

Lecture 3: Numerical Solving Methods

Chapter 3: Important Fundamentals

Lecture 1: ANSYS Important Concepts

Lecture 2: Types of Problems

Lecture 3: ANSYS Solvers Common Types and Systems Couplings

Lecture 4: Basics of Drawing Figures and Schematics in PowerPoint Part I

Lecture 5: Basics of Drawing Figures and Schematics in PowerPoint Part II

Lecture 6: Basics of Drawing Figures and Schematics in PowerPoint Part III

Lecture 7: Basics of Drawing Figures and Schematics in PowerPoint Part IV

Lecture 8: Basics of Drawing Figures and Schematics in Adobe Illustrator

Lecture 9: Solving ANSYS Problems – Methodology

Lecture 10: Assignments Submission Steps

Lecture 11: How We Make Our Presentations (NEW)

Chapter 4: Design Modeler (DM)

Lecture 1: DesignModeler Overview

Lecture 2: Draw Toolbox

Lecture 3: Modify Toolbox

Lecture 4: Dimensions Toolbox

Lecture 5: Constrains Toolbox

Lecture 6: Types of Bodies in DesignModeler – Overview

Lecture 7: Line Body Generation

Lecture 8: Surface Body Generation I

Lecture 9: Surface Body Generation II

Lecture 10: Split Edges

Lecture 11: New Planes and Solid Body Generation

Lecture 12: Drawing in Space Tool

Lecture 13: Extrude and Revolve

Lecture 14: Sweep and Loft – Part I

Lecture 15: Sweep and Loft – Part II

Lecture 16: Fillet and Chamfer

Lecture 17: Mirror, Pattern, and Scale

Lecture 18: Surface Extension and Flip

Lecture 19: Patch, Delete, and Symmetry

Lecture 20: Slice, Projection, and Face Split – Part I

Lecture 21: Slice, Projection, and Face Split – Part II

Lecture 22: Named Selections

Lecture 23: Parametric Analysis Overview – Part I

Lecture 24: Parametric Analysis Overview – Part II

Lecture 25: Joints and Multibody Part

Lecture 26: Analysis Tools

Lecture 27: Cleanup and Repair of Geometry – Part I

Lecture 28: Cleanup and Repair of Geometry – Part II

Lecture 29: Boolean, Enclosure, Fill, and Thin_Surface – Part I

Lecture 30: Boolean, Enclosure, Fill, and Thin_Surface – Part II

Lecture 31: Boolean, Enclosure, Fill, and Thin_Surface – Part III

Lecture 32: Translate, Rotate, and Move

Lecture 33: Saving the Geometry Project

Chapter 5: ANSYS Meshing

Lecture 1: Meshing Overview

Lecture 2: ANSYS Meshing_2019_R2 – Introduction

Lecture 3: ANSYS Meshing_R15.0 – Introduction

Lecture 4: Two-Dimensional Geometries Meshing

Lecture 5: Mappable Faces VS Unmappable Faces in ANSYS

Lecture 6: 2D Meshing Methods – Quadrilateral Dominant

Lecture 7: 2D Meshing Methods – Triangles

Lecture 8: 2D Meshing Methods – MultiZone Quad Tri

Lecture 9: Three-Dimensional Geometries Meshing Overview

Lecture 10: 3D Meshing Methods – Tetrahedrons

Lecture 11: 3D Meshing Methods – Hex Dominant

Lecture 12: 3D Meshing Methods – Sweep

Lecture 13: 3D Meshing Methods – Automatic

Lecture 14: Mapped, Unmapped, Free, Structured, Unstructured, and Hexa Mesh – Concepts

Lecture 15: 2D Mapped Mesh Introduction

Lecture 16: 3D Mapped Mesh Introduction

Lecture 17: 2D Free Mesh Introduction

Lecture 18: 3D Free Mesh Introduction

Lecture 19: Generation of Hexa (Mapped) Mesh

Lecture 20: Selection of Suitable Mesh Introduction

Lecture 21: Mapped Meshing – Example 1

Lecture 22: Mapped Meshing – Example 2

Lecture 23: Mapped Meshing – Example 3

Lecture 24: Mapped Meshing – Example 4

Lecture 25: Mapped Meshing – Example 5

Lecture 26: Mapped Meshing – Example 6

Lecture 27: Conformal and Non-conformal Mesh

Lecture 28: Is Your Meshing Good Enough

Lecture 29: Mesh Resolution

Lecture 30: Mesh Smoothness and Transition

Lecture 31: Mesh Sizing – 2D Geometries

Lecture 32: Mesh Sizing – 3D Geometries

Lecture 33: Importance of Y+

Lecture 34: Element Order

Lecture 35: Gradual Change in Mesh Size Overview

Lecture 36: Meshing Parameters Optimization Tools

Lecture 37: Gradual Mesh Sizing – Structured Mesh

Lecture 38: Gradual Mesh Sizing – Unstructured Mesh

Lecture 39: Mesh Quality

Lecture 40: Mesh Dependency Test and Meshing Parametric Analysis

Lecture 41: Saving ANSYS Meshing Project

Instructors

Mahmoud A.A.M
Mechanical Engineer & Water Treatment Lead

Abdulkarem Odhah
Co-Founder of DeltaCore Engineering Solutions

Rating Distribution

1 stars: 0 votes

2 stars: 5 votes

3 stars: 40 votes

4 stars: 93 votes

5 stars: 100 votes

Frequently Asked Questions

How long do I have access to the course materials?

You can view and review the lecture materials indefinitely, like an on-demand channel.

Can I take my courses with me wherever I go?

Definitely! If you have an internet connection, courses on Udemy are available on any device at any time. If you don’t have an internet connection, some instructors also let their students download course lectures. That’s up to the instructor though, so make sure you get on their good side!