Aerodynamic Discussion Thread
#101
There's already tuft tests done with a hardtop. In such tests, you can see that the tufts are in fact going the wrong direction. Proof that air is separating and circulating a pocket behind the rear window. Now combine that with a window that's open, and the air now has somewhere to go (into the cabin)
#102
In a miata with the rear window unzipped (or missing from a HT), the air gets pulled in from the back. In my sedan with a sunroof, air get pulled out the sunroof. In my truck with a sunroof and a rear window slider, air gets pulled in through the slider and out the sunroof.
The civic fire video clearly shows this. You can do the same thing with a can of smoke. Driving at freeway speed, reach out the window and release some smoke over the roof of the car. If air was exiting the rear window, it wouldn't end up in the cabin. Since the cabin will be full of smoke, try not to crash...
#104
Senior Member
Thread Starter
Join Date: Oct 2011
Location: The Race Track & St Pete FL
Posts: 638
Total Cats: 57
I put this up because of the new active diffusers (front and rear) and that is so cool
Hopefully here soon we can see what new technology McLaren has learned in Formula 1 but can't use it. The McLaren P1 is heard of having gobs of downforce. Lamborghini always has crazy design style so there Veneno should have some weird aerodynamics.
Hopefully here soon we can see what new technology McLaren has learned in Formula 1 but can't use it. The McLaren P1 is heard of having gobs of downforce. Lamborghini always has crazy design style so there Veneno should have some weird aerodynamics.
#105
Supporting Vendor
iTrader: (3)
Join Date: Jul 2006
Location: San Diego
Posts: 3,303
Total Cats: 1,216
Lambos are for posters IMO, the real racecar tech is coming from the companies actually participating in top-shelf racing. (Ferrari, McLaren, etc.) No doubt the Veneno will be fast, but it's not the same as the La Ferrari in my eyes.
-Ryan
-Ryan
#107
Elite Member
iTrader: (2)
Join Date: May 2008
Location: Portland, Oregon
Posts: 3,468
Total Cats: 365
To be fair, while Lambo has essentially nothing in regards to historical racing performance, they are finally fielding factory cars in real racing, competing in FIA GT1 in 2011 and 2012.
But yeah I think McLaren's a ways ahead, to be sure.
It will be interesting to see how Ferrari does next year, and the years following, as their new F1 factory comes online and they start using their revamped wind tunnel, which supposedly will be state of the art after its upgrades. They were getting data from it which was, shall we say, perhaps not erroneous, but was not correlating with the performance of the car on track. They began using Toyota's wind tunnel in Cologne last year to compare data.
But yeah I think McLaren's a ways ahead, to be sure.
It will be interesting to see how Ferrari does next year, and the years following, as their new F1 factory comes online and they start using their revamped wind tunnel, which supposedly will be state of the art after its upgrades. They were getting data from it which was, shall we say, perhaps not erroneous, but was not correlating with the performance of the car on track. They began using Toyota's wind tunnel in Cologne last year to compare data.
#112
The balance of the lift and drag is efficiency however. And being aerodynamic is just a word that can describe two totally different setups. A landspeed car can be very aerodynamic and a F1 car around Monaco can also be very aerodynamic. They just happen to be in different ways. I do not know which route that Lamborghini takes, but if I had to guess, it would be efficiency.
#113
Great aero thread...
This has been a fun thread to lurk through, but thought i'd add my .02.
Briefly, it looks like Ross Braun's crazy contraption works using the Bernoulli principle, along with the angle of air as it enters. F1 tests everything via computer model, and then via wind tunnel. They could simulate an entire race at every track, including the velocity and angle of the wind as it enters the device, and plot the relative effectiveness.
I'm hoping to have some serious CFD (colorful, flowy designs) completed for the Catfish this summer, including the flat bottom, air flow in the engine bay, splitters, hood, diffuser and other elements of the design.
Some of the information will apply to the Catfish only, while others such as the flat bottom and the diffuser will have direct application to the Miata. This stuff will be published, so the usual secret racer sh*t mostly won't apply. Of course, not every step will be shown, but I'm looking forward to proving out the design via CFD.
Last, the data acquisition product I have would be able to control the linear actuators on a moveable wing...left, right, stop, flat on the straights, no problem. It makes you wonder if I've got a design already made...
Briefly, it looks like Ross Braun's crazy contraption works using the Bernoulli principle, along with the angle of air as it enters. F1 tests everything via computer model, and then via wind tunnel. They could simulate an entire race at every track, including the velocity and angle of the wind as it enters the device, and plot the relative effectiveness.
I'm hoping to have some serious CFD (colorful, flowy designs) completed for the Catfish this summer, including the flat bottom, air flow in the engine bay, splitters, hood, diffuser and other elements of the design.
Some of the information will apply to the Catfish only, while others such as the flat bottom and the diffuser will have direct application to the Miata. This stuff will be published, so the usual secret racer sh*t mostly won't apply. Of course, not every step will be shown, but I'm looking forward to proving out the design via CFD.
Last, the data acquisition product I have would be able to control the linear actuators on a moveable wing...left, right, stop, flat on the straights, no problem. It makes you wonder if I've got a design already made...
#115
The rear hub application is done, and the front brake rotor is done.
The rear brake rotor is being a bitch, and the front hub was completely machined .0025 too small. Do-overs.
Frankly, the first part to be finished will probably be a replacement four bolt front hub with tapered roller bearings.
#118
Well right, grinders are the people that grind ****. I was a grinder until last year. Made rotary dies down to the .0001 precision.
The way to fix it is to build up chrome (tool chrome, not bling bling chrome) and grind it again to size. It actually ends up being harder than the hardened to 59-60 rockwell steel.
The way to fix it is to build up chrome (tool chrome, not bling bling chrome) and grind it again to size. It actually ends up being harder than the hardened to 59-60 rockwell steel.
#119
This has been a fun thread to lurk through, but thought i'd add my .02.
Briefly, it looks like Ross Braun's crazy contraption works using the Bernoulli principle, along with the angle of air as it enters. F1 tests everything via computer model, and then via wind tunnel. They could simulate an entire race at every track, including the velocity and angle of the wind as it enters the device, and plot the relative effectiveness.
I'm hoping to have some serious CFD (colorful, flowy designs) completed for the Catfish this summer, including the flat bottom, air flow in the engine bay, splitters, hood, diffuser and other elements of the design.
Some of the information will apply to the Catfish only, while others such as the flat bottom and the diffuser will have direct application to the Miata. This stuff will be published, so the usual secret racer sh*t mostly won't apply. Of course, not every step will be shown, but I'm looking forward to proving out the design via CFD.
Last, the data acquisition product I have would be able to control the linear actuators on a moveable wing...left, right, stop, flat on the straights, no problem. It makes you wonder if I've got a design already made...
Briefly, it looks like Ross Braun's crazy contraption works using the Bernoulli principle, along with the angle of air as it enters. F1 tests everything via computer model, and then via wind tunnel. They could simulate an entire race at every track, including the velocity and angle of the wind as it enters the device, and plot the relative effectiveness.
I'm hoping to have some serious CFD (colorful, flowy designs) completed for the Catfish this summer, including the flat bottom, air flow in the engine bay, splitters, hood, diffuser and other elements of the design.
Some of the information will apply to the Catfish only, while others such as the flat bottom and the diffuser will have direct application to the Miata. This stuff will be published, so the usual secret racer sh*t mostly won't apply. Of course, not every step will be shown, but I'm looking forward to proving out the design via CFD.
Last, the data acquisition product I have would be able to control the linear actuators on a moveable wing...left, right, stop, flat on the straights, no problem. It makes you wonder if I've got a design already made...
#120
Well right, grinders are the people that grind ****. I was a grinder until last year. Made rotary dies down to the .0001 precision.
The way to fix it is to build up chrome (tool chrome, not bling bling chrome) and grind it again to size. It actually ends up being harder than the hardened to 59-60 rockwell steel.
The way to fix it is to build up chrome (tool chrome, not bling bling chrome) and grind it again to size. It actually ends up being harder than the hardened to 59-60 rockwell steel.