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h3. List of learning modules

Each learning module below contains a step-by-step tutorial that shows details of how to solve a selected problem using ANSYS FLUENT. The pedagogical philosophy behind these modules is discussed in [this article|http://www.idac.co.uk/enews/articles/Teaching.pdf] from the _ANSYS Advantage_ magazine.
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| !cfdpic.jpg|height=75,align=center! | [Introduction to CFD Basics|FLUENT - Introduction to CFD Basics] |
| !lam.jpg|width=150,height=75,align=center,thumbnail! | [Laminar Pipe Flow|FLUENT - Laminar Pipe Flow - Problem Specification] | ANSYS FLUENT 12.1 |
| !turb.jpg|width=150,height=75,align=center,thumbnail! | [Turbulent Pipe Flow|FLUENT - Turbulent Pipe Flow - Problem Specification] | ANSYS FLUENT 12.1 |
| !Forced Convection with Heating.png|width=150,height=75,align=center,thumbnail! | [Turbulent Forced Convection|FLUENT - Forced Convection - Problem Specification] | ANSYS FLUENT 12.1 |
| !2D Steady Convection with Heating.png|width=150,height=75,align=center,thumbnail! | [Laminar Convection: Nusselt Problem |ANSYS WB - 2D Steady Convection - Problem Specification] | ANSYS FLUENT 12.1 |
| !Flat Plate Thumb.png|width=150,height=75,align=center,thumbnail! | [Flat Plate Boundary Layer|FLUENT - Flat Plate Boundary Layer - Problem Specification] | ANSYS FLUENT 12.1 |
| !Steady Cylinder Thumb.png|width=150,height=75,align=center,thumbnail! | [Steady Flow Past a Cylinder|FLUENT 12.1 - Steady Flow Past a Cylinder - Problem Specification] | ANSYS FLUENT 12.1 |
| !Unsteady Thumb.png|height=75,width=150,align=center,thumbnail! | [Unsteady Flow Past a Cylinder|FLUENT 12.1 - Unsteady Flow Past a Cylinder - Problem Specification] | ANSYS FLUENT 12.1 |
| !airfoilvelo.png|height=75,width=150,align=center,thumbnail! | [Flow over an Airfoil|ANSYS WB - Airfoil - Problem Specification] | ANSYS FLUENT 12.1 |
| !ssfoawIcon.png|height=75,width=150,align=center,thumbnail! | [Supersonic Flow Over a Wedge|ANSYS WB - Supersonic Flow Over a Wedge - Problem Specification] | ANSYS FLUENT 13.0 |
| !nozzle p contour.jpg|height=75,width=150,align=center,thumbnail! | [Compressible Flow in a Nozzle|ANSYS WB - Compressible Flow in a Nozzle - Problem Specification] | ANSYS FLUENT 13.0 |
| !turb.jpg|height=75, width=150,align=center,thumbnail! | [Turbulent Pipe Flow (LES)|ANSYS WB - Turbulent Pipe Flow (LES) - Problem Specification] | ANSYS FLUENT 14.0 |
| !nasal.png|height=75, width=150,align=center,thumbnail! | [Nasal Airway Model|ANSYS WB - Nasal Airway Model - Problem Specification] | ANSYS FLUENT 14.0 |






















h4. Older Tutorials

These tutorials are for older version of FLUENT and are no longer being updated

| !ssfoawIcon.png|height=75,width=150,align=center! | [Supersonic Flow Over a Wedge|FLUENT - Supersonic Flow Over a Wedge - Problem Specification] | ANSYS FLUENT 6.3 |
| !mininozzle.jpg|align=center! | [Compressible Flow in a Nozzle|FLUENT - Compressible Flow in a Nozzle- Problem Specification] | ANSYS FLUENT 6.3 |
| !Steady Cylinder Thumb.png|width=150,height=75,align=center! | [Steady Flow Past a Cylinder|FLUENT - Steady Flow Past a Cylinder - Problem Specification] | ANSYS FLUENT 6.3 |
| !Unsteady Flow.jpg|height=75,width=150,align=center! | [Unsteady Flow Past a Cylinder|FLUENT - Unsteady Flow Past a Cylinder - Problem Specification] | ANSYS FLUENT 6.3 |
| !airfoilvelo.png|height=75,width=150,align=center! | [Flow over an Airfoil|FLUENT - Flow over an Airfoil- Problem Specification] | ANSYS FLUENT 6.3 |
| !Flat Plate Thumb.png|width=150,height=75,align=center! | [Forced Convection over a Flat Plate|FLUENT - Forced Convection over a Flat Plate- Problem Specification] | ANSYS FLUENT 6.3 |
| !hex1sphere4size_TurbInt_edited.jpg|thumbnail,align=centre,width=150,height=75! | [Flow past a Sphere |FLUENT - Turbulent Flow Past a Sphere - Problem Specification] | ANSYS FLUENT 6.3 |
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h3. Computational Combustion modules

[These modules|http://courses.cit.cornell.edu/fluent/comp_comb.htm] use Chemkin IV (for laminar flames) and Fluent (for turbulent flames). They provide instruction in the use of the software and also provide insights into the physics and chemistry involved. The focus is on: the thermochemistry and kinetics of ideal gas mixtures; laminar premixed and nonpremixed flames; and turbulent non-premixed flames.


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