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Fluent Meshing

Fluent Meshing Training Course

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  • Generating High Quality Mesh for Complex Geometries Using Fluent Meshing Software.
  • Mastering  Different Applications of Fluent Meshing’s capabilities.
  • Creating Polyhedral and Ploy HexCore Elements for higher accuracy.
  • Adding Boundary Layer For Mesh Generation Process.
Click on Add To Cart and obtain the Geometry file, Mesh file, and a Comprehensive ANSYS Fluent Training Video.

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Ansys Fluent Meshing Course (1022 X 664 Mm)

Fluent Meshing Training Course: Session 13, Mesh Verification and Export Procedures

  • In this Fluent Meshing Course session focuses on reviewing the mesh after generation.
  • It explains how to check the number of cells and evaluate mesh quality.
  • It also describes how to view important mesh metrics in Fluent Meshing.
  • Finally, it covers the process of exporting the mesh for use in Fluent.
Ansys Fluent Meshing Course (1022 X 664 Mm)

Fluent Meshing Training Course: Session 12, Post-Volume Mesh Task

  • Post–volume-mesh tasks in Fluent Meshing refine mesh quality, modify mesh geometry, and organize zones to prepare the model for robust CFD simulation.
  • Improve Volume Mesh enhances existing cells based on quality metrics like orthogonal quality or skewness, helping prevent convergence problems and numerical instability.
  • Transform Volume Mesh translates or rotates selected mesh zones, with options to create copies, enabling efficient construction of repeated or symmetric regions.
  • Extrude Volume Mesh extends the domain by extruding layers from selected boundaries with controlled thickness, layer count, and growth, ideal for outlets and far-field regions.
  • Manage Zones renames, merges, and reclassifies cell and face zones so that boundary and region definitions become cleaner and easier to use in the solver setup.
Ansys Fluent Meshing Course (1022 X 664 Mm) (1022 X 664 Mm)

Fluent Meshing Training Course: Session 11, Generate the Volume Mesh

  • In Fluent Meshing, Generate Volume Mesh fills the geometry with mesh cells for CFD analysis.
  • It offers mesh types like polyhedral, tetrahedral, hexcore, and poly-hexcore, each balancing accuracy and efficiency differently.
  • Users control cell size and growth to refine the mesh where needed.
  • This process ensures high-quality meshes for reliable simulation results.
Ansys Fluent Meshing Course (1022 X 664 Mm)

Fluent Meshing Training Course: Session 10, Add Boundary Layers

  • Boundary layers are thin regions near walls where fluid velocity and temperature gradients are strongest.
  • Fluent Meshing provides several methods—Smooth Transition, Uniform, Last Ratio, and Aspect Ratio—to generate refined layers in these zones.
  • Each method controls layer growth differently, impacting mesh quality, accuracy, and computational cost.
  • Proper boundary layer meshing ensures reliable CFD predictions of drag, lift, shear stress, and heat transfer.
Ansys Fluent Meshing Course

Fluent Meshing Training Course: Session 9, Regions

  • In this session, a heat exchanger geometry created in Design Modeler was processed through the Create Regions workflow in Fluent Meshing.
  • After completing surface meshing and boundary updates, the Create Regions step identified three types of zones: fluid zones (flow areas), solid zones (material bodies), and dead zones (isolated volumes from geometry suppression).
  • Key settings included setting “Estimated Number of Fluid Regions” to 1 for a single continuous fluid domain and “Retain Dead Region Names” to “No” for cleaner mesh processing.
  • The Update Regions interface allowed conversion of dead zones to fluid or solid zones as needed, ensuring proper region assignment before volume mesh generation.
Ansys Fluent Meshing Course

Fluent Meshing Training Course: Session 8, Boundary Conditions

  • In the Fluent Meshing Training Course: Session 8, Boundary Conditions, we created a simple cube geometry in SpaceClaim, applied name selections, and imported it into Fluent Meshing.
  • After generating the surface mesh and defining the domain as fluid, we explored how the software automatically assigns boundary conditions such as velocity-inlet, pressure-outlet, wall, and symmetry.
  • We also reviewed different boundary condition types (inlets, outlets, walls, symmetry, interfaces, vents, fans, etc.) and their applications.
  • Finally, boundaries were updated to prepare the model for simulation, highlighting the importance of correct boundary selection for accurate and stable results.
Ansys Fluent Meshing Course (1022 X 664 Px)

Fluent Meshing Training Course: Session 7, Describe Geometry

  • Fluent Meshing, Describe Geometry
  • Geometry Type
  • Will you cap openings and extract fluid regions?
  • Change all fluid-fluid boundary types from ‘wall’ to ‘internal’?
  • Do you want to apply Shared topology?
  • Enable multizone meshing?
Ansys Fluent Meshing Course 6

Fluent Meshing Training Course: Session 6, Generate the Surface Mesh

  • Fluent Meshing, Generate the Surface Mesh
  •  Minimum and maximum size, growth rate, curvature, and proximity
  • Difference between local size and surface mesh
  •  Setup periodic boundaries
  • Linear pattern mesh
  • Add boundary type
  • Improve surface mesh
  • Manage zone
Ansys Fluent Meshing Course (1)

Fluent Meshing Training Course: Session 5, Add local size

  • Add local size
  • Face size & body size
  • Body of influence – Face of influence (BOIs & SOIs)
  • curvature proximity
  • Create local refinement regions
Ansys Fluent Meshing Course (4)

Fluent Meshing Training Course: Session 4, Import Geometry

  • importing CAD into the Fluent Meshing
  • importing .mesh files into the Fluent Meshing
  • Body of Influence Geometry (BOI).
Ansys Fluent Meshing Course (1)

Fluent Meshing Training Course: Session 3, Launching FLUENT Meshing

  • Got acquainted with the Launcher settings
  • Learned three ways to launch FLUENT Meshing
Ansys Fluent Meshing Course (1)

FLUENT Meshing Training Course: Session 2, Prerequisite

  • learned the key concepts and prerequisites for successful meshing in Fluent.
  • learned how to create boundary conditions and naming in various engineering software
  • concept of conformal and non-conformal meshes
  • four main types of meshes in Fluent Meshing
  • mesh quality metrics
Ansys Fluent Meshing Course1

FLUENT Meshing Training Course: Session 1, Introduction

  • Fluent Meshing is a sophisticated meshing tool in ANSYS software
  • Introduction to meshing tools specific to fluid flow problems
  • Create optimal meshes for a variety of CFD problems

Special Offers For All Products

If you need the Geometry designing and Mesh generation training video for all the products, you can choose this option.
The journal file in ANSYS Fluent is used to record and automate simulations for repeatability and batch processing.
Editable geometry and mesh allows users to create and modify geometry and mesh to define the computational domain for simulations.
The case and data files in ANSYS Fluent store the simulation setup and results, respectively, for analysis and post-processing.
Geometry, Mesh, and CFD Simulation methodologygy explanation, result analysis and conclusion

Special Offers For Single Product

Get a FREE consultation to discuss running your simulations on our high-performance computing systems
If you need the Geometry designing and Mesh generation training video for one product, you can choose this option.
editable geometry and mesh allows users to create and modify geometry and mesh to define the computational domain for simulations.
The case and data files in ANSYS Fluent store the simulation setup and results, respectively, for analysis and post-processing.
Geometry, Mesh, and CFD Simulation methodologygy explanation, result analysis and conclusion
Enhancing Your Project: Comprehensive Consultation and Optimization Services
The MR CFD certification can be a valuable addition to a student resume, and passing the interactive test can demonstrate a strong understanding of CFD simulation principles and techniques related to this product.
The journal file in ANSYS Fluent is used to record and automate simulations for repeatability and batch processing.

Description

1. Introduction

Fluent Meshing is one of the most fundamental and practical mesh generation software tools in ANSYS, specifically developed for managing complex three-dimensional geometries and significantly reducing mesh preparation time. Compared to other mesh generation software available in ANSYS, Fluent Meshing has notable advantages, including its ability to create polyhedral elements and the Mosaic Meshing technology, which increases mesh quality by combining hexahedral (Hexa) and polyhedral (Poly) elements, and dramatically reduces the number of cells needed to achieve similar accuracy compared to traditional methods. Unlike older tools, this software offers powerful parallel processing capabilities and can generate very heavy meshes at high speed, making it an ideal choice for the automotive and aerospace industries.

2. Objectives

In this training course, by creating meshes on various geometries in the Fluent Meshing software, the various existing tools and capabilities in the software will be taught to you. Various capabilities such as local sizing, the concept of growth rate, how to create boundary layers, geometry description, share topology, determining the type of boundary condition for different named parts, and many other important capabilities of the Fluent Meshing software will all be taught to you with various examples, so that by studying them, you can increase your meshing ability and acquire the desired appropriate skill.

3. Summary

At the end of this course, it is expected that students will have become familiar with the fundamental concepts and important capabilities of the FluentMeshing software and will be able to create higher-quality meshes that are also better in terms of mesh quality. It is recommended that students review the training sessions in the order presented in this course and practically perform the exercises provided alongside the training course in order to acquire the required skill.

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