When it comes to learning Ansys, an industry-leading simulation software, there are a variety of online courses available. These courses aim to provide individuals with the necessary skills and knowledge to effectively utilize Ansys in their engineering work. In order to find the best Ansys courses online, it is important to consider factors such as course content, instructor expertise, and course duration. This guide will explore some of the top Ansys courses available online and highlight the key features of each course.
Here’s a look at the Best Ansys Courses and Certifications Online and what they have to offer for you!
Ansys Online Course With Certificate Free
- Ansys Online Course With Certificate Free
- 1. Mastering Ansys CFD (Level 1) by Sijal Ahmed (Udemy) (Our Best Pick)
- 2. ANSYS Training: A Easy Introduction with Applications by Rakesh Potluri (Udemy)
- 3. Mastering Ansys CFD (Level 2) by Sijal Ahmed (Udemy)
- 4. Ansys Tutorial by Armin Yousefi Kanani (Udemy)
- 5. Simulation using ANSYS – Fluent English version by Hussien Hafez (Udemy)
- 6. Ansys Workbench – Analysis Engineering Training Program by Academy of Engineering (Udemy)
- 7. Ansys Basic Course-Basics of FEM & Static Analysis Tutorials by Amr Shaaban (Udemy)
- 8. ANSYS Workbench – A Complete Course by SS eAcademy . (Udemy)
- 9. ANSYS from Drawing to Results Visualization – CFD and FEA by Mahmoud A.A.M, Abdulkarem Odhah (Udemy)
- 10. Ansys Fluent- Computational Fluid Dynamics (CFD) by Sahin Kaymak (Udemy)
1. Mastering Ansys CFD (Level 1) by Sijal Ahmed (Udemy) (Our Best Pick)
The Mastering Ansys CFD (Level 1) course is designed to teach students computational fluid dynamics (CFD) from the basics to advanced concepts using Fluent, CFX, ICEMCFD, and Ansys Workbench. The course includes lectures, previews, and assignments covering important commands and concepts to understand CFD and its application to sample problems. The course provides complete guidance on using commercial CFD codes, defining problems, creating geometry, setting up problems in CFX Pre or Fluent, solving problems in both CFX and Fluent solver, and post-processing Fluent and CFD Post.
The course also teaches students how to check mesh independence, compare results with experimental data, and conclude the results. The course includes supplemental resources such as books, input/output files, solution files, ppt slides for all lectures, software links, and instruction to install them. The course has over 24.5 hours of on-demand video content spread over 185 lectures and 65+ supplemental resources. Full lifetime access is provided to the course, and it can be accessed on mobile, TV, desktop, and laptop.
The course has around 8700+ satisfied students from 170 countries around the world, making it the number 1 best-selling ANSYS course on Udemy for the last 3+ years. The course has over 1400+ ratings, with over 1000 reviews, and total time taught is 28000 hours in the last 3+ years. The course has 33 sections, including a new section added on August 20, 2021, covering one way FSI (fluid structure interaction) of power plant cooling tower and a section added on June 6, 2022, covering tank emptying CFD simulation using Fluent.
The course is suitable for students who have no prior knowledge of any CFD software. Students have access to the instructor to clarify any doubts within 24 hours.
The ANSYS Training course offers essential training on solving engineering problems through the use of Ansys Workbench. Ansys Workbench is a general-purpose Finite Element Analysis (FEA) software widely used in the industry and academia. The software is used to simulate product operating conditions to understand their behavior and achieve good design through simulation and optimization before actual manufacture. With Ansys Workbench, users can simulate problems from different fields such as structural, vibrations, heat transfer, fluid flows, and many more types.
The course is divided into theoretical and practical sessions. In the theoretical session, the basic theoretical concepts regarding the topics of FEA, meshing, static structural, modal, thermal, thermo-structural, and buckling analysis are introduced. The practical session involves learning how to apply Ansys Workbench software for efficiently performing different kinds of simulations using industrial and academic examples.
The practical session covers a wide range of simulations, including static structural analysis, 3-D static structural analysis, 2-D static structural analysis, 1-D static structural analysis, modal analysis, free vibration analysis, forced vibration analysis (pre-stressed), thermal analysis, conduction mode, convection mode, radiation mode, mixed mode heat transfer, thermo-structural analysis, buckling analysis, structural buckling, thermal buckling, contact analysis, meshing with old and newer versions of Ansys Workbench, Ansys Workbench interface for old and newer versions of Ansys Workbench, engineering data manager and design modeler, and FEA theory.
New sections and examples will be added based on requirements whenever needed. In addition to these analyses, participants will learn about meshing and how to generate good mesh, the use of the Design Modeler Module, and other vital modules in Ansys Workbench software.
The Mastering Ansys CFD (Level 2) course is an online course that focuses on external aerodynamics and turbomachinery CFD using Ansys Fluent, ICEMCFD, Space Claim, and Design Modeler. The course is designed to enhance learners’ CFD skill level from basic to advanced. CFD is a scientific field that solves fluid dynamics and heat transfer problems using numerical models on a computer. The course emphasizes the process of CFD simulation, which includes extracting important information from data, creating geometry, cleaning geometry, and creating a domain around it. Learners will also learn about meshing, solution and processing, post-processing, and data monitoring.
One of the latest workshops added to the course on August 15, 2021, is CFD Analysis of Complete Aircraft Model: Lockheed P3C Orion. The course is divided into several sections, including an introduction to the course, problem description of workshop on missile, geometry processing in Spaceclaim, Tetra Prism mesh generation in ICEM CFD, problem setup, solution, and post-processing in Fluent for Missile, and more. The workshops cover a range of topics from centrifugal fan modeling to Ahmed Body CFD and hexa meshing of Ahmed Body.
The Mastering Ansys CFD (Level 2) course is designed to teach learners how to solve complex engineering problems in fluid dynamics using CFD techniques. The course takes learners through each step of the CFD simulation process, from geometry to meshing to solution and processing. The course is practical, enabling learners to apply the techniques learned to real-world problems. Learners will also learn how to post-process results, how to understand them, and how to compare them with available analytical and/or experimental data. The course emphasizes best practices to ensure the highest quality of CFD analysis.
The Ansys Tutorial Course, instructed by Armin Yousefi Kanani, provides an overview of modelling and analyzing composite materials in Ansys software. Composite materials are a combination of two or more layered materials with different properties, creating lightweight and durable products. The engineering challenge is predicting performance under real-world conditions. Ansys Composite PrepPost provides functionalities for analyzing layered composite structures. The course is divided into 11 sections, with step-by-step tutorials for beginners.
The first section introduces Ansys software and ACP tools and teaches how to add tools into a project schematic and create simple geometry. The second section explains important ACP tools such as Draping, Rules, Rosette, and Orientation. The third section models a T beam shape in ANSYS ACP and performs stress analysis, providing a good example for beginners to test their skills.
The fourth section is dedicated to buckling, finding eigenvalues for a simple composite plate. In the fifth section, you will learn how to create honeycombs and combine them with composite models in ACP. The sixth, seventh, and eighth sections teach how to combine models with mechanical models, solving three different mechanical examples with ACP and mechanical models in ANSYS workbench.
Sections nine, ten, and eleven cover fatigue, natural frequencies, and failure, including rebounding, delamination, and progressive failure. These sections should not be attempted without completing the previous sections. To get the most out of the course, it is recommended to start from the basics and progress through all sections.
The course content and sections are: Ansys Introduction, ACP Tools, Modelling Composite Beam in ACP, Eigenvalue and Mode Shape of Composite Plate, Honeycomb, Solid Modeling, Complex Solid Modeling 1, Complex Solid Modeling 2, Parameters, Tensile Test and Fatigue Behavior, and Failure in ANSYS ACP. Armin Yousefi Kanani updates the course regularly and welcomes feedback for improvement.
The Simulation using ANSYS – Fluent English version course is designed to teach participants how to professionally work with ANSYS CAD software, meshing tools, and CFX and Fluent programs. The course is split into three parts, with a total of 34 projects. Prior basic knowledge of fluid dynamics is required to take the course.
In the first part, participants will learn how to use ANSYS CAD software ‘space claim’ to make assemblies and import parts from other CAD software. The second part focuses on ANSYS meshing tools, including measuring mesh quality. The third part covers working with CFX and Fluent programs and viewing results on CFD-post. The course provides a step-by-step understanding of each program’s GUI, every option available, and the physics behind using each option.
The course’s instructor will be available throughout the course to answer technical questions. The course is separated into seven sessions, each covering a different topic. Session one covers the introduction to FEA and Space Claim, including 1-D, 2-D, and 3-D drawings. Session two will delve deeper into space claim, importing drawings from other CAD software, drawing flow domain for a 3D wing, and assembling parts.
Session three will introduce participants to meshing, ANSYS meshing tools’ GUI, and meshing three main parts. Session four will cover the introductory CFD, the GUI of CFX, turbulence models, and boundary conditions. In session five, participants will learn about Fluent’s GUI and solving flow in various cases. Session six will cover using CFD-post to view results and solving various cases. Lastly, session seven will cover advanced cases, including VAWT, pipe in a wall heat transfer, and centrifugal compressor.
Overall, the Simulation using ANSYS – Fluent English version course provides a comprehensive understanding of ANSYS CAD software, meshing tools, and CFX and Fluent programs.
The Academy of Engineering offers a training program titled Ansys Workbench – Analysis Engineering Training Program for aspiring Analysis Engineers. The program teaches the use of ANSYS, a general-purpose software used for simulating interactions across various disciplines of physics, such as structural, vibration, fluid dynamics, heat transfer, and electromagnetic for engineers.
The software enables the simulation of tests or working conditions in a virtual environment, allowing for the testing of prototypes before manufacturing. Additionally, ANSYS aids in determining and improving weak points, computing life, and foreseeing potential problems through 3D simulations in a virtual environment.
The ANSYS software has a modular structure that allows users to choose only the required features. It can also be integrated with other engineering software on desktops by adding CAD and FEA connection modules.
The course covers the introduction to the training program and ANSYS, static structural example applications, meshing example applications, dynamic analysis, explicit analysis, rigid body dynamics analysis, steady-state thermal analysis, transient thermal analysis, eigenvalue buckling analysis, nonlinear analysis, topology optimization analysis, and the Spaceclaim program.
The Ansys Basic Course – Basics of FEM & Static Analysis Tutorials is a comprehensive course that provides an overview of finite element analysis and its various applications. The course is designed to offer a theoretical background for any FE solver user. The course comprises an evolution of FEM, basic definitions, types of elements, analysis types, model fidelity, pre-processing, and post-processing, with the help of mathematical and technical applications.
In addition, the course includes 11 static analysis tutorials on Ansys software to link the theoretical background to the software application. The course aims to provide an understanding of the software’s capabilities and how it can be utilized for static analysis. Moreover, the course comes equipped with assignments and working files annexed to the lectures. This allows students the opportunity to apply what they learn on their own. Additionally, the slides are attached to the lecture for the student’s convenience.
The course is divided into several sections, with an introduction to finite element analysis and its applications. The first section covers basic definitions, types of elements, and analysis types. The second section focuses on model fidelity and pre-processing, while the third section covers post-processing.
Overall, the Ansys Basic Course – Basics of FEM & Static Analysis Tutorials provides a comprehensive theoretical background on finite element analysis and its applications. The course is designed for individuals who want to gain a better understanding of the software’s capabilities and how it can be used for static analysis. With its 11 static analysis tutorials and annexed assignments and working files, this course is an excellent resource for anyone interested in FEM and Ansys software.
This course, titled ANSYS Workbench – A Complete Course, offered by SS eAcademy, teaches students how to perform thermal and structural analysis on 3D models using ANSYS Workbench, a numerical engineering problem-solving software. The course covers mechanical analysis and aims to correlate learners with actual engineering problems, helping them understand the problem definition and solve it. The course covers the interface to ANSYS workbench for mechanical preference and includes various analysis types available in Workbench – Mechanical like structural analysis, dynamic analysis, heat transfer, magneto-statics, and electrical simulations.
In this course, students learn about finite element analysis and finite element methods, ANSYS workbench FEA numerical engineering problem solver, various meshing techniques and methods, how to create geometry using ANSYS modeler, and a step by step procedure to solve engineering problems using ANSYS workbench. Students also learn how to define contacts and boundary conditions and perform static structural analysis, thermal analysis, model analysis, and coupled thermal-structural analysis. Additionally, the course offers practical examples to understand the ANSYS workbench solver.
The course includes several sections: Introduction of ANSYS, Geometry creation using ANSYS workbench, Meshing in ANSYS Workbench, Static Structural analysis in ANSYS Workbench, Non-Linear analysis in ANSYS Workbench, Thermal analysis in ANSYS Workbench, Linear Buckling analysis in ANSYS Workbench, Thermal Couple Structural analysis of Conventional type Jacketed Pressure Vessel, Fatigue analysis using ANSYS Workbench, Transient Structural analysis, and Advance Static Structural analysis. The course also offers a Practice Model STEP File as a bonus.
Overall, this course offers comprehensive training for ANSYS Workbench, focusing on mechanical analysis and its practical applications in engineering problems.
9. ANSYS from Drawing to Results Visualization – CFD and FEA by Mahmoud A.A.M, Abdulkarem Odhah (Udemy)
This ANSYS professional course provides a comprehensive introduction to simulation and computational fluid dynamics (CFD) using ANSYS Workbench. The course covers fundamental concepts in an engaging manner, followed by a detailed explanation of Design Modeler. ANSYS Meshing is then explained with high-quality content and examples, including three special tools for meshing optimization.
The course also includes five real-world application examples, including an experimentally validated solar load simulation. These examples demonstrate the power of ANSYS Workbench and the range of results that can be obtained using ANSYS Mechanical Thermal, ANSYS Mechanical Structural, and ANSYS FLUENT. The course provides practice activities to reinforce key concepts throughout.
The course is divided into sections covering: Course Overview, Things You Should Know before Starting the Course, Important Fundamentals, Design Modeler (DM), ANSYS Meshing, Project 1: Linear Heat Conduction Apparatus Simulation, Project 2 : Critical Radius of Insulation for a Cylinder Using Parametric Study, Project 3: Bending Moment and Shear Force Diagrams for a Cantilever Beam, Project 4: Flow Over a Heated Flat Plate, Project 5: Simulation of a Box Solar Cooker Using Solar Load Methods, and How to Publish a Scientific Paper Guide.
The Ansys Fluent- Computational Fluid Dynamics (CFD) course is designed to help students understand the basics of fluid flow in Ansys. The course is geared towards beginners and includes examples of different CFD models.
One of the main benefits of using analysis programs like Ansys is the ability to save money by avoiding the need for physical testing. By learning one analysis program, engineers can improve their skill set and make themselves more valuable in the job market.
Ansys is a widely used analysis program that can analyze structural, fluent, heat transfer, vibration, and more. This course specifically focuses on computational fluid dynamics (CFD), covering topics such as geometry creation, meshing, setting up conditions, and selecting the best solver for a given problem.
The course includes examples of various CFD models, including a T-Connector, air conditioning system, car, airfoil, and two-phase flow. By the end of the course, students will have a solid understanding of fluid flow basics in Ansys and be equipped with the skills to tackle CFD problems.