ICEMCFD Master Class (Level 1)

ICEMCFD Master Class (Level 1), available at $44.99, has an average rating of 4.1, with 79 lectures, based on 76 reviews, and has 1586 subscribers.

You will learn about Students will learn to create high quality hexa meshing in ICEMCFD This course is ideal for individuals who are Undergraduate, Masters and PhD students pursuing their career in engineering and science or Engineering and science professional who want to enhance their skills It is particularly useful for Undergraduate, Masters and PhD students pursuing their career in engineering and science or Engineering and science professional who want to enhance their skills.

Enroll now: ICEMCFD Master Class (Level 1)

Summary

Title: ICEMCFD Master Class (Level 1)

Price: $44.99

Average Rating: 4.1

Number of Lectures: 79

Number of Published Lectures: 79

Number of Curriculum Items: 79

Number of Published Curriculum Objects: 79

Original Price: $74.99

Quality Status: approved

Status: Live

What You Will Learn

Students will learn to create high quality hexa meshing in ICEMCFD

Who Should Attend

Undergraduate, Masters and PhD students pursuing their career in engineering and science

Engineering and science professional who want to enhance their skills

Target Audiences

Undergraduate, Masters and PhD students pursuing their career in engineering and science

Engineering and science professional who want to enhance their skills

Meshing is the process to divide the continuous domain into discrete parts to solve fluid dynamics equation to get solution of flow field and heat transfer numerically on computers. ICEMCFD is one of the leading meshing software and it is specially best for getting high quality hexa meshing for accurate CFD results.

In this course you will learn to create high quality hexa mesh with 15 high quality workshops / cases in different applications areas. You will learn to use ICEMCFD options effectively to create the blocking and also you will be able to think about the blocking strategy yourself.

Workshops/cases covered in this course are:

Workshop 1 :Geometry, domain and hexa meshing of NACA 0012 3D airfoil with different trailing edges and domain shapes.

Workshop 2 :Hexa meshing of Square Duct

Workshop 3 :Hexa meshing of cube in external flow

Workshop 4 :Hexa meshing technique for quarter cylinder

Workshop 5 :Hexa meshing of vortex generator over ramp

Workshop 6 :Transition piping hexa mesh

Workshop 7 :Hexa meshing of two type of hemispheres configuration for external flow analysis

Workshop 8 :Hexa meshing Ventrui scruber with three nozzles at throat area

Workshop 9 :3D injection nozzle system for coal, air and straw

Workshop 10 :Hexa meshing Gas Turbine Combustion Chamber

Workshop 11 :Hexa meshing of Supersonic Converging-Diverging Nozzle with Far Filed

Workshop 12 :Hexa meshing of U-Bend with top-down and bottom-up approaches

Workshop 13 :Hexa meshing of simple dimple over flat surface

Workshop 14 :Hexa meshing of triple wedge in supersonic external flow

Workshop 15 :Hexa meshing of of cone with different blocking approaches

Note: This course requires some basic knowledge on ICEMCFD. Some basic courses you can also find on udemy to start with.

Course Curriculum

Chapter 1: Introduction

Lecture 1: Introduction

Chapter 2: Workshop 1 : Hexa meshing of NACA 0012 3D wing with different configurations

Lecture 1: Introduction

Lecture 2: Layout of workshop and important files

Lecture 3: Creating NACA 0012 airfoil and domain from coordinates

Lecture 4: Creating circular domain and square trailing edge from previous model

Lecture 5: Creating 3D domain from 2D geometry in ICEMCFD and part names

Lecture 6: Geometry files for all four cases

Lecture 7: Blocking strategy for case 1 : Rectangular domain with sharp TE airfoil

Lecture 8: Blocking splitting, block collapse and association to airfoil

Lecture 9: Blocking adjustment in tip region

Lecture 10: O-Grid and Y-Grid in tip region

Lecture 11: Pre-mesh on airfoil & domain and using scan plans to inspect mesh

Lecture 12: Blocking optimization, quality check and mesh export for Case 1

Lecture 13: Another blocking approach for tip region for Case 1

Lecture 14: Case 2 : Blocking approach and key features

Lecture 15: Case 2 : Tip region – Similar approach as of case 1

Lecture 16: Blocking approach for case 3

Lecture 17: Blocking approach for case 4

Lecture 18: Moving 3D Airfoil by 10 AoA in Rectangular domain

Chapter 3: WS 2 : Hexa meshing of Square Pipe/Duct

Lecture 1: Blocking and premesh for square duct

Chapter 4: WS 3 : Hexa meshing of cube in external flow

Lecture 1: Introduction

Lecture 2: Blocking approach and creating solid block

Lecture 3: Final Mesh

Chapter 5: WS 4 : Hexa meshing of Quarter Pipe

Lecture 1: Blocking method and meshing for quarter cylinder

Chapter 6: WS5 : Hexa meshing for 3D triangular vortex generator

Lecture 1: Blocking creation and block split

Lecture 2: Association, merging vertices, Y-Grid and Pre-Mesh

Lecture 3: Mesh check from Pre-mesh info and edit mesh tab

Chapter 7: WS 6 : Hexa meshing of transition piping system

Lecture 1: Blocking and pre-mesh of pipe assembly with various radii

Chapter 8: WS 7 : Hexa meshing of hemisphere in two type of flow applications

Lecture 1: Blocking and meshing for case 1 with method 1

Lecture 2: Blocking and meshing for case 1 with method 2

Lecture 3: Blocking and meshing for Case2 – Initial blocking

Lecture 4: Blocking and meshing for Case2 – OGrid and Pre-Mesh

Chapter 9: WS 8 : Hexa meshing of Venturi Scrubber

Lecture 1: Introduction to Venturi Scrubber

Lecture 2: Blocking approach for ventrui scrubber

Lecture 3: Blocking splits for major regions and deleting extra blocks

Lecture 4: Blocking splits for throat and nozzles

Lecture 5: Association, O-Grid for three nozzles, part mesh setup and premesh for approach

Lecture 6: Second blocking approach for venturi scrubber

Chapter 10: WS 9 : Hexa meshing of Injections for three fluids : Air, Straw and Coal

Lecture 1: Introduction

Lecture 2: O-Grid for three inlets

Lecture 3: Association and moving vertices to optimize blocking

Lecture 4: Futher working on vertices to refine the blocking

Lecture 5: Setting pre mesh parameters

Lecture 6: Editing edges of blocking to increase quality of mesh

Chapter 11: WS 10 : Hexa meshing of Gas Turbine Combustion Chamber with Periodicity

Lecture 1: General discussion about the problem

Lecture 2: Creating quarter O-Grid and adjusting blocking to geometry

Lecture 3: Setting blocking with move vertices command

Lecture 4: Deleting blocks (permanently) and merging vertices

Lecture 5: Defining periodicity in blocking and association

Lecture 6: Creating O-Grids for upper section and fine tuning of blocking

Lecture 7: Final Association of edges to curves and vertices to points

Lecture 8: Checking periodicity on vertices and faces and mesh export

Chapter 12: WS 11: Hexa meshing of Supersonic Converging-Diverging Nozzle with extra inlet

Lecture 1: Introduction

Lecture 2: Creating half O-Grid and split for capturing geometry

Lecture 3: Splitting and associating blocking at key locations

Lecture 4: Deleting block permanently and fine tuning blocking

Lecture 5: Further improvements in blocking

Lecture 6: Splitting block for injection hole

Lecture 7: Extrude block along curve for the injection hole

Lecture 8: O-Grid for injection and final touches to mesh. Mesh check in Fluent

Chapter 13: WS 12 : Hexa meshing of U-Bend

Lecture 1: Introduction

Lecture 2: Creating 3D block and adjusting to geometry for method 1 : Top down approach

Lecture 3: Association, edge editing and premesh

Lecture 4: O-Grid Generation

Lecture 5: Creating same blocking and mesh using method 2 – Bottom up approach

Chapter 14: WS 13 : Hexa meshing of Dimple

Lecture 1: Introduction

Lecture 2: Geometry accuracy in any CFD model

Lecture 3: Blocking approach and premesh

Chapter 15: WS 14 : Hexa meshing of Tripe Wedge in external flow

Lecture 1: Introduction

Lecture 2: Blocking strategy, association and meshing for wedge

Lecture 3: Y block on triple wedge leading edge, Premesh, mesh export and mesh in Fluent

Chapter 16: WS 15 : Hexa meshing of Cone

Lecture 1: Problem description and geometry details

Lecture 2: Creating block and splitting it at major locations

Lecture 3: Creating O-Grid in domain and around cone

Lecture 4: Solid block and adjusting vertices on cone

Lecture 5: Adjusting and fine tuning block on cone

Lecture 6: Face to surface association and premesh

Lecture 7: Concluding remarks

Chapter 17: Workshop 16: Hexa meshing of 90 deg bend

Lecture 1: Hexa meshing of 90 deg bend

Instructors

Sijal Ahmed
CFD Engineer,CFD Instructor

Rating Distribution

1 stars: 1 votes

2 stars: 1 votes

3 stars: 11 votes

4 stars: 30 votes

5 stars: 33 votes

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