An Introduction to ANSYS Fluent 2022

• Teaches new users how to run Computational Fluid Dynamics simulations using ANSYS Fluent
• Uses applied problems, with detailed step-by-step instructions
• Designed to supplement undergraduate and graduate courses
• Covers the use of ANSYS Workbench, ANSYS DesignModeler, ANSYS Meshing and ANSYS Fluent
• Compares results from ANSYS Fluent with numerical solutions using Mathematica
• This edition feature three new chapters analyzing an optimized elbow, golf balls, and a car

As an engineer, you may need to test how a design interacts with fluids. For example, you may need to simulate how air flows over an aircraft wing, how water flows through a filter, or how water seeps under a dam. Carrying out simulations is often a critical step in verifying that a design will be successful. In this hands-on book, you’ll learn in detail how to run Computational Fluid Dynamics (CFD) simulations using ANSYS Fluent. ANSYS Fluent is known for its power, simplicity and speed, which has helped make it a world leader in CFD software, both in academia and industry.

Unlike any other ANSYS Fluent textbook currently on the market, this book uses applied problems to walk you step-by-step through completing CFD simulations for many common flow cases, including internal and external flows, laminar and turbulent flows, steady and unsteady flows, and single-phase and multiphase flows. You will also learn how to visualize the computed flows in the post-processing phase using different types of plots. To better understand the mathematical models being applied, we’ll validate the results from ANSYS Fluent with numerical solutions calculated using Mathematica.

Throughout this book we’ll learn how to create geometry using ANSYS Workbench and ANSYS DesignModeler, how to create mesh using ANSYS Meshing, how to use physical models and how to perform calculations using ANSYS Fluent. The chapters in this book can be used in any order and are suitable for beginners with little or no previous experience using ANSYS. Intermediate users, already familiar with the basics of ANSYS Fluent, will still find new areas to explore and learn. An Introduction to ANSYS Fluent 2022 is designed to be used as a supplement to undergraduate courses in Aerodynamics, Finite Element Methods and Fluid Mechanics and is suitable for graduate level courses such as Viscous Fluid Flows and Hydrodynamic Stability.

The use of CFD simulation software is rapidly growing in all industries. Companies are now expecting graduating engineers to have knowledge of how to perform simulations. Even if you don’t eventually complete simulations yourself, understanding the process used to complete these simulations is necessary to be an effective team member. People with experience using ANSYS Fluent are highly sought after in the industry, so learning this software will not only give you an advantage in your classes, but also when applying for jobs and in the workplace. This book is a valuable tool that will help you master ANSYS Fluent and better understand the underlying theory.

Topics Covered

• Boundary Conditions
• Drag and Lift
• Initialization
• Iterations
• Laminar and Turbulent Flows
• Mesh
• Multiphase Flows
• Nodes and Elements
• Pressure
• Project Schematic
• Results
• Sketch
• Solution
• Solver
• Streamlines
• Transient
• Visualizations
• XY Plot
• Animation
• Batch Job
• Cell Zone Conditions
• CFD-Post
• Compressible Flow
• Contours
• Dynamic Mesh Zones
• Fault-tolerant Meshing
• Fluent Launcher
• Force-Report
• Macroscopic Particle Model
• Materials
• Pathlines
• Post-Processing
• Reference Values
• Reports
• Residuals
• User Defined Functions
• Viscous Model
• Watertight-Geometry

Table of Contents

1.   Introduction
2.   Flat Plate Boundary Layer
3.   Flow Past a Cylinder
4.   Flow Past an Airfoil
5.   Rayleigh-Benard Convection
6.   Channel Flow
7.   Rotating Flow in a Cavity
8.   Spinning Cylinder
9.   Kelvin-Helmholtz Instability
10. Rayleigh-Taylor Instability
11. Flow Under a Dam
12. Water Filter Flow
13. Model Rocket Flow
14. Ahmed Body
15. Hourglass
16. Bouncing Spheres
17. Falling Sphere
18. Flow Past a Sphere
19. Taylor-Couette Flow
20. Dean Flow in a Curved Channel
21. Rotating Channel Flow
22. Compressible Flow Past a Bullet
23. Vertical Axis Wind Turbine Flow
24. Circular Hydraulic Jump
25. Optimized Elbow
26. Golf Ball
27. Model Car: Audi R8