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November 5, 2019, 14:33 |
cd and dl on an airfoil
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#1 |
New Member
Joan Vilalta Mor
Join Date: Oct 2019
Posts: 10
Rep Power: 6 |
Hi,
I'm doing a research project about the aerodynamics in a F1 car and I'm doing an airfoil simulation to get the drag and lift coefficient and forces in ANSYS Fluent I have already done the geometry and an hexa/prism mesh of the airfoil This is the geometry: 1.png And this is the mesh: 2.png3.png Now my questions are: Do I have to use a laminar air or a turbulent model (such as k-epsilon)? Would you chose an hybrid or an standard initialization? What number of iterations would you select to run the calculation? Cheers |
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November 5, 2019, 16:30 |
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#2 |
Senior Member
Matt
Join Date: Aug 2014
Posts: 947
Rep Power: 17 |
you will definitely need a turbulence model and the number of iterations should be selected so that your figures of merit (lift and drag) and residuals converge.
initialization shouldn't matter much in the final solution, but can affect how quickly you get there... assuming you aren't initializing in way that makes no sense physically. |
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November 5, 2019, 17:16 |
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#3 | |
New Member
Joan Vilalta Mor
Join Date: Oct 2019
Posts: 10
Rep Power: 6 |
Quote:
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November 5, 2019, 18:25 |
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#4 | |
Senior Member
Matt
Join Date: Aug 2014
Posts: 947
Rep Power: 17 |
Quote:
The flow around an F1 car is not laminar. I know you are only looking at the airfoil, but there is bound to be turbulent boundary layer at any practical Reynolds number. Boundary layer separation will definitely be affected by your choice (or lack) of turbulence model. If you want your results to represent reality in any meaningful way you should not only use a turbulence model but understand why it’s the best choice of the available options. |
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