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”
- Numerical simulations of fluid flow (will) enable architects to design comfortable and safe living environments.
- Mechanical, Aerospace, Civil and Chemical enineering undergraduate students.
- Mechanical, Aerospace, Civil and Chemical enineering post-graduate students (M.Sc. – PhD.).
- Designers of vehicles to improve the aerodynamic characteristics.
- Chemical engineers to maximize the yield from their equipment.
- Petroleum engineers to devise optimal oil recovery strategies surgeons to cure arterial diseases (computational Hemodynamics).
- Meteorologists to forecast the weather and warn of natural disasters.
- Safety experts to reduce health risks from radiation and other hazards.
- 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 “ ?