Simulation using ANSYS - Fluent English version
Offered By: Udemy
Course Description
Overview
What you'll learn:
- 1- draw any 2D/3D Model using Spaceclaim.
- 2- Successfully create the correct mesh for any Model and measure its quality.
- 3- Understand the physical setup of both CFX-Pre and Fluent.
- 4- Deal with different models ( heat transfer, supersonic flow, combustion, solar load,...etc).
- 5- Professionally view the results you want in both CFD-Post and Fluent
Since there are two different interfaces(GUIs) for ANSYS workbench ,each video is uploaded in the two GUIs
('R181' for Workbench versions earlier than R19.3, 'R193' for Workbench versions after than R19.2)
-the course requires you to have very basic knowledge on fluid dynamics
the course is split into 3 parts:
1. learn how to work professionally on ANSYS CAD software 'space claim' (we start from the beginning till we can make assembly, and import parts from other CAD software ).
2. learn how to work professionally on ANSYS meshing tool, and measure the mesh quality.
3. learn how to work professionally on CFX and Fluent , and view the results on CFD-post
in every program, we understand its GUI, all the options they have, and the physics behind every value or option we use
the course contains 34 projects (10 projects in space claim , 6 in meshing tool , 3 in CFX , and 15 in Fluent)
in every project, we learn new tools and get more familiar with the programs
the instructor will be available with you through the entire course, and ready for any technical questions you have
this is the course content:
Session 1:
-intro to FEA
-intro to Space Claim (1-D, 2-D, and 3-D drawings )
Session 2:
-more on Space Claim:
Importing drawings from other CAD software
Drawing flow domain for a 3D wing
importing .txt file to spaceclaim
Using pattern tool in drawing blades
Working on Assembly (assembling parts drawn on space claim,
and parts drawn on Solidworks)
Session 3:
-intro to Meshing
-GUI of ANSYS meshing tool
-Meshing three main parts (Global settings, Meshing methods,
and Local settings)
-Pipe model mesh (structured mesh)
-Car flow domain mesh
-Aerofoil flow domain mesh
-Aerofoil structured mesh
-2 rectangle blocks domain structured mesh (2D)
-2 rectangle blocks domain structured mesh (3D)
-Mesh quality
Session 4:
-intro to CFD
-GUI of CFX
-Turbulence models, and Boundary conditions
-Solving flow in pipe (comparing different cases) (CFX)
-Solving flow over a car model (CFX)
-Solving flow in a Convergent Divergent nozzle (CFX) (supersonic flow)
Session 5:
-GUI of Fluent
-Solving flow in pipe (comparing CFX and Fluent results)
-Solving flow over aerofoil (Fluent)
-Solving supersonic flow over a wedge (Fluent)
-Solving a combustion chamber case (Fluent)
-Solving a convergent divergent nozzle case(Fluent)
Session 6:
-GUI of CFD-post
-Using CFD-post to view results with all Fluent and CFX projects
-Solving a water filling in a tank case (Fluent)
-heat exchanger- heat transfer (Fluent)
-Solving Rotating Cylinder case (Fluent)
-Simple FSI Fluid Solid interaction case (Fluent)
-Boiling water in a tank case (Fluent)
-Solar load and radiation case (Fluent)
Session 7:
-VAWT (vertical axial wind turbine) (Fluent)
-Pipe in a wall heat transfer (Fluent)
-Car in a garage case (Fluent)
-Gate in a pipe (UDF + dynamic mesh) (Fluent)
-Centrifugal Compressor (Fluent)
-bullets race Advanced FSI case (Fluent)
-Flow over a wing (Fluent)
Taught by
Hussien Hafez
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