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Ansys Icepak 기본교육

소개

Ansys Icepak은 전기 전자기기의 열 유동 해석 프로그램입니다. CFD 해석 경험이 적은 비전문가도 손쉽게 해석 모델 구축과 격자생성을 할 수 있고, 이미 전세계적으로 신뢰성 및 정확성이 검증된 Fluent의Solver를 사용하여 계산을 수행함으로 해석 결과를 쉽고 빠르게 추출할 수 있습니다. 본 교육은 Ansys Icepak을 전혀 사용해보지 않거나 사용할 예정인 분들에 대한 기본 교육으로 전자기기 열유동 해석에 입문하려는 분들이 수강해야 할 필수 과정입니다.

대상

  • 열 해석 툴로써 Ansys Icepak을 검토하시는 분
  • Icepak 초보 사용자.

Learning Path

Currently, no Learning Path available

Learning Outcome

Upon completion of this course, you will be able to:

  • Overall Capabilities of Ansys Icepak and where to look for a certain capability.
  • Steps to create/import geometry in Icepak and import CAD geometry using SpaceClaim.
  • Inputs and boundary conditions required to perform a Thermal simulation.
  • Best practices for model building, meshing, solving and checking the results.
  • Multiphysics workflows with Ansys Icepak.
  • How and where to get additional resources and support.

 Available Dates

Time Duration Event Type Location Language cost REGISTRATION
Jun 16, 2021
10:00 - 17:00 KST (GMT +9)
3 Days
Jun 16-18
Live Seoul, South Korea Korean 1104000 KRW REGISTER

Learning Options

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

Agenda

For virtual training, this course is covered over 10 x 2 hour sessions, lectures only.

Virtual Classroom Session 1

  • Lecture: Introduction and Ansys Icepak Overview
  • Lecture: Interface and Modelling Basics

Virtual Classroom Session 2

  • Lecture: Model Building using Ansys Icepak Primitives - Part 1
  • Building using Ansys Icepak Primitives – Part 2
  • Workshop: Model Building using Ansys Icepak Primitives - Part 1
  • Workshop: Model Building using Ansys Icepak Primitives - Part 2

Virtual Classroom Session 3

  • Lecture: Conformal Meshing
  • Lecture: Non-Conformal Meshing
  • Workshop: Conformal Meshing
  • Workshop: Non-Conformal Meshing

Virtual Classroom Session 4

  • Lecture: Solver Setup
  • Lecture: Physics and Transient Modeling
  • Workshop: Basic Solving and Post Processing
  • Workshop: Transient Simulation

Virtual Classroom Session 5

  • Lecture: Post Processing

Virtual Classroom Session 6

  • Lecture: Parametric and Optimization
  • Lecture: Using Macros in Ansys Icepak
  • Workshop: Parametric Trails

Virtual Classroom Session 7

  • Lecture: ECAD Import
  • Lecture:  Introduction to Ansys Workbench and Ansys SpaceClaim

Virtual Classroom Session 8

  • Lecture: MCAD to Ansys Icepak using Ansys SpaceClaim
  • Workshop: MCAD to Icepak using Ansys SpaceClaim

Virtual Classroom Session 9

  • Lecture: Multi-Level Meshing
  • Workshop: Multi-Level meshing

Virtual Classroom Session 10

  • Lecture: Tips and Tricks
  •  

This is a 3 day classroom course covering both lectures and workshops.

Day 1

  • Lecture: Introduction and Ansys Icepak Overview
  • Lecture: Interface and Modelling Basics
  • Lecture: Model Building using Ansys Icepak Primitives – Part 1
  • Workshop: Model Building using Ansys Icepak Primitives - Part 1
  • Lecture: Conformal Meshing
  • Workshop: Conformal Meshing
  • Lecture: Solver Setup
  • Workshop: Basic Solving and Post Processing
  • Lecture: Post Processing

Day 2

  • Lecture: Model Building using Ansys Icepak Primitives – Part 2
  • Lecture: Icepak Import Options
  • Workshop: Model Building using Ansys Icepak Primitives - Part 2
  • Lecture: Non-Conformal Meshing
  • Workshop: Non-Conformal Meshing
  • Lecture: Physics and Transient Modeling
  • Workshop: Transient Simulation
  • Lecture: Using Macros in Ansys Icepak

Day 3

  • Lecture: Introduction to Ansys Workbench and Ansys SpaceClaim
  • Lecture MCAD to Ansys Icepak using Ansys SpaceClaim
  • Workshop: MCAD to Icepak using Ansys SpaceClaim
  • Lecture: Multi-Level Meshing
  • Workshop: Multi-Level meshing
  • Lecture: Parametric and Optimization
  • Workshop: Parametric Trails
  • Lecture: Tips and Tricks