In FSAE or Formula Student or whatever they call it in different countries, I believe their is no importance of aerodynamics since the speeds are very low, however its worth while investing some time to understand the basics of it by applying it to the FSAE car.AeroGT3 wrote:Hey,
I'm new to the forum as well. I'm an Aerospace engineering junior at Cal Poly San luis obispo, and I'm the Aero lead for our Formula SAE team. This is the first year Aero is being done (I literally pulled a team together in the past 2-3 weeks) and I'm trying to find the best way to make use of CFD to cut down testing time. I've been learning Floworks, and it seems relatively user friendly, but I'm curious as to you guys' thoughts on how accurate and applicable it is/would be to wings and underbody elements of a formula style car at low speed and low reynolds numbers (Less than 1 million.)
I'm especially concerned with its ability to model the ground effects on the front wing and the underbody. How can the stationary ground be modeled with respect to the moving undertray? Any suggestions? I've heard it can be done in Fluent, but that it can be complex and quite difficult. While we have access to Fluent and Gambit, and the computing resources as well, we don't yet have the experience to use either. Also, I've run the 2 element model on page two of this thread, and I keep getting stall on the trailing edge of the first element, which generally agrees with what theory would suggest. Does anyone care to comment? I adjusted the minimum gap size and wall thickness to correspond with the features of the geometry, but had to modify the gap to be larger as gap thickness for the smaller spacing caused insane run times. I tried more advanced manual meshing/refinement, but the calculations were going to take longer than I would have the computer for. My results are shown below. Note the quality is poor as the original bmp was changed to a jpeg. Thanks in advance for any comments, inputs, or advice you may have.
[IMG:1071:726]http://i23.photobucket.com/albums/b397/ ... oodCFD.jpg[/img]
keep it simple. Use basic principles like keeping the flow attached as long as possible and analysing the wing section at differernt heights above the ground to sort of simulate vibration etc.
Use standard wing sections like they do in F1 for the main element and flap. Try select one of the NACA sections since wind tunnel data is available and you can easily select the one that gives the best lift to drag ratios and suits well the circuit you are going to race on.
I think its part of your majot project as well, so going through design practices like this would gurantee you good grades and the same time you may produce a better car.
Hope this helps and good luck.
P.S. Since your run times are long, try analysing your wing in 2D rather than 3D.
