ANSYS

What is CFD?

Computational Fluid Dynamics (CFD) provides a qualitative (and sometimes even quantitative) prediction of fluid flows by means of

# Mathematical modeling (partial dierential equations)

# Numerical methods (discretization and solution techniques)

# Software tools (solvers, pre- and post processing utilities)

Why CFD?

CFD enables scientists and engineers to perform “numerical experiments”

(i.e. computer simulations) in a “virtual flow laboratory”

  1. Numerical simulations of fluid flow (will) enable architects to design comfortable and safe living environments.
  2. Mechanical, Aerospace, Civil and Chemical enineering undergraduate students.
  3. Mechanical, Aerospace, Civil and Chemical enineering post-graduate students (M.Sc. – PhD.).
  4. Designers of vehicles to improve the aerodynamic characteristics.
  5. Chemical engineers to maximize the yield from their equipment.
  6. Petroleum engineers to devise optimal oil recovery strategies surgeons to cure arterial diseases (computational Hemodynamics).
  7. Meteorologists to forecast the weather and warn of natural disasters.
  8. Safety experts to reduce health risks from radiation and other hazards.
  9. CFD practitioners to make big bucks by selling colorful pictures.

HOW CFD ?

Join Us to know

When CFD?

Up to your request

 

Course schedule (24 Hrs)

 

Day One:

  • Meaning of CFD.
  • Importance of CFD.
  • What is ANSYS ?
  • How to get 140$ per hour ?
  • How to be a CFD engineer ?
  • What is validation ?
  • ANSYS Workbench.
  • How to build your numerical model ?
  • Steps of your project ( Design modeler , Meshing , Solver ” Fluent , CFX ” , Results ” Post Processing ” ).
  • Case study ( 2D Laminar Flow + Bulf body ).
  • Showing results on ” Fluent”.
  • HOME WORK.

 

Day Two:

  • Dealing with Design Modeler.
  • Types of Mesh.
  • How to build a good Mesh ?
  • How to check your Mesh ?
  • How is Mesh affects on accuracy of results?
  • What is the Turbulence Models?
  • How to select the proper Turbulence Model for your project ?
  • Case study ( 2D Turbulent Flow + Bulf body ).
  • Case study ( 3D Air Heater ).
  • Showing results on ” Fluent”.
  • HOME WORK.

 

Day Three:

  • New tips and tricks with Design Modeler.
  • How to deal with heat transfer characteristics ?
  • Case study ( 3D Air Conditioning Application ).
  • Dead zones.
  • Showing results on ” CFD-Post”.
  • HOME WORK.

 

 

Day Four:

  • What is Species ?
  • Case study ( 3D Species Application “ Combustion” ).
  • How to deal with multi types of fluid/ideal gas.
  • HOME WORK.

Day Five:

  • How to deal with different type of Airfoil “ NASA/NACA “ ?
  • How to get the Airfoil’s coordinates ?
  • How to import AirFoil’s coordinates ?
  • How to choose suitable turbulence model for aerodynamics applications ?
  • Case study ( AirFoil – Aerodynamics )
  • HOME WORK

 

Day Six:

  • Case study ( Convergent Divergent Nozzle “ CD “ )
  • How to deal with this type of application ?
  • How to explore the MACH number as a result?
  • How to deal with sonic speed and predict of “ Normal Shock Wave “ ?
  • How to save computational time by symmetry option ?
  • How to import any CAD design from external CAD software “ AutoCAD, SolidWorks, CATIA, NX, ……… etc “ ?