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Ansys Fluent Getting Started 교육 (Classic Workflow)

소개

이 과정에서는 Ansys Fluent 소프트웨어를 사용하여 CFD(전산유체역학) 해석을 시작하는데 필요한 기본적인 Skill에 대해 강의합니다. 강사의 시연 및 실습에서는 Ansys SpaceClaim의 CAD 모델링 작업, Ansys Meshing을 통한 고품질 CFD 메쉬 생성 및 Ansys Fluent에서의 CFD해석까지의 전체 CFD Workflow의 모든 항목을 다룹니다. 코스 모듈은 형상 및 메쉬 생성과 Fluent Solver에 대한 주제로 구성되며, 수강생은 이 각각의 주제들을 학습하면서 어려운 CFD 문제 해결을 위한 시작부터 끝까지의 작업 절차를 습득하게 됩니다.

대상

  • Ansys Fluent를 이용한 열∙유동해석에 관심이 있는 CFD(Computational Fluid Dynamics) 연관분야의 대학(원)생 및 엔지니어.
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Learning Outcome

Following completion of this course, you will be able to;

  • Understand the end-to-end procedure of simple CFD problems using Ansys Fluent 
  • Learn how to use the most important functions of  Ansys SpaceClaim Direct Modeler
  • Learn how to  create high quality CFD meshes with Ansys Meshing 
  • Become familiar with the end-to-end workflow of simple CFD problems using Ansys Fluent

 Available Dates

Learning Options

Training materials for this course are available with a Ansys Learning Hub Subscription. If there is no active public schedule available, private training can be arranged. Please contact us

 

Agenda

This is a 3 day classroom course covering both lectures and Demos. For virtual training, this course is covered over 5 x 2 hour sessions lectures and demos only.

Virtual Classroom Sessions 1 & 2 / Live Classroom Day 1 Virtual Classroom Session 3 & 4 / Live Classroom Day 2 Virtual Classroom Session 5 / Live Classroom Day 3

Virtual Classroom Session 1

  • Module 1: Overview of CFD
  • Lecture 1.0: Introduction to Ansys 
  • Lecture 1.1: Introduction to Ansys Workbench 
  • Lecture 1.2: Overview of CFD Process
  • Demo 1: Flow in a Mixing Tee
  • Workshop 1: Flow in a Mixing Tee 
  • Module 2: Ansys Fluid Simulation Basics
  • Lecture 2.1: Ansys SpaceCaim Essentials
  • Demo 2.1: Flow Distribution in an Air Manifold (SCDM)
  • Lecture 2.2:  Ansys Meshing Essentials
  • Demo 2.2: Flow Distribution in an Air Manifold (Meshing)
  • Lecture 2.3 : Fluent User Interface and Workflow 
  • Demo 2.3: Flow Distribution in an Air Manifold (CFD)
  • Workshop 2: Flow Distribution in an Air Manifold 

Virtual Classroom Session 2

  • Module 3: Defining Fluid Simulations
  • Lecture 3.1: Basic Operations in Ansys SpaceClaim  
  • Demo 3.1: Mixing Hot and Cold Streams in a Mixing Elbow (SCDM)
  • Lecture 3.2: Global Mesh Control
  • Demo 3.2: Mixing Hot and Cold Streams in a Mixing Elbow (Meshing)
  • Lecture 3.3: Setting Up Physics
  • Demo 3.3: Mixing Hot and Cold Streams in a Mixing Elbow (CFD)
  • Workshop 3: Mixing Hot and Cold Streams in a Mixing Elbow

Virtual Classroom Session 3

  • Module 4: Postprocessing Fluid Simulations
  • Lecture 4.1: Geometry Handling and Repair
  • Demo 4.1: Tube Bundle (SCDM)
  • Lecture 4.2: Local Mesh Controls
  • Demo 4.2: Tube Bundle (Meshing)
  • Lecture 4.3: Results
  • Demo 4.3: Tube Bundle Post-processing 
  • Workshop 4: Tube Bundle

Virtual Classroom Session 4

  • Module 5:  Parameters and Design Points 
  • Lecture 5.1: Main Tools, Parameters and Assemblies
  • Demo 5.1: Ball Valve (SCDM)
  • Lecture 5.2: Mesh Methods and Selective Meshing
  • Demo 5.2: Ball Valve (Meshing)
  • Lecture 5.3: Parameters and Design Points
  • Demo 5.3: Parametric Study in a Ball Valve (CFD)
  • Workshop 5: Parametric Study in a Ball Valve
  • Module 6:Solving
  • Lecture 6: Solving
  • Workshop 6: Solving

Virtual Classroom Session 5

  • Module 7: Lecture 7: CFD Best Practices
  • Workshop 7: Airfoil
  • Module 8: Lecture 8: Turbulence
  • Workshop 8: Flow Over a Backward Facing Step 
  • Module 9: Lecture 9: Heat Transfer
  • Workshop 9: Electronics Cooling  
  • Module 10: Lecture 10: Transient Flows
  • Workshop 10: Vortex Shedding