- Login or Register
No account yet? Sign up
Team: Adrian Newey (CTO), Petr Prodromou (CA), Rob Marshall (CD), Christian Horner (TP)
Drivers: Sebastian Vettel (1), Mark Webber (2), Sebastian Buemi (reserve)
The high speed exhaust is angled upwards. Blowing under the wishbone is merely a way to help deflect that airflow downwards. Not for getting downforce from the upper wishbone.Nickel wrote:Timstr wrote:Why do people think that blowing hot air onto a tiny brake-duct fin or on a suspension member will in itself create any meaningful downforce? None I think.
I think blowing in the area between the rear wheel and gearbox is to clean up and accelerate the airflow over the top of the diffuser so that air is extracted faster from underneath the diffuser. And that is the actual downforce creation.I don't dispute at all the idea that energizing the flow over the top of the diffuser can help extract more air from under the floor. I have a bit of trouble with the concept that it cleans up the airflow though.flynfrog wrote: yes but you are missing Tims point that amount is much less than pulling more through the diffuser and beam wing area.
Also, I have a lot of trouble believing that a team like red bull went to the trouble of placing the upper wishbone in such a way that the exhaust flows directly under it for "no meaningful downforce" unless you're arguing that this is simply to redirect the air at the diffuser. Something tells me it doesn't redirect the air that dramatically. My interpretation of what I see on the rb8 says it acts on both wishbones and the beam wing.
Also, I think the wishbone is a good choice because it can be placed so close to the exhaust, where there is the most energy. By the time it gets to the beam wing/diffuser area, much of that energy is dissipated.
I agree that it deflects the exhaust stream downwards. Until someone is kind enough to run some CFD simulation, we will have to agree to disagree as far as downforce generated upon the wishbone.Timstr wrote: The high speed exhaust is angled upwards. Blowing under the wishbone is merely a way to help deflect that airflow downwards. Not for getting downforce from the upper wishbone.
Thanks for the link to a neat program. There's a flaw though. This is a neutral body in the free stream. Run the exhaust at 350m/s over the underside of a neutral body and then what happens? The key to what I and others are saying is primarily the undersideflynfrog wrote:getting the wishbone high is simply to get it out of the way.
http://www.grc.nasa.gov/WWW/k-12/airplane/foil2.html
play with a neutral body with angle off attack if you want to see with your own eyes.
The screen implies that there is no special aerodynamics required inside there?hardingfv32 wrote:The screen looks like junk. Not to F1 standards.
Brian
[img]http://www.formula1.com/wi/sutton/2011/ ... 76.jpg[img]
That's quite far fetched and unnecesary.f1nut wrote:The shape of the letterbox interests me; the way it ramps up. It looks like a scramjet inlet. In this theory the air is 'shocked' rapidly slows and increases in pressure. The air could then be heated and delivered to the rear of the car. Just a thought.
no.f1nut wrote:The shape of the letterbox interests me; the way it ramps up. It looks like a scramjet inlet. In this theory the air is 'shocked' rapidly slows and increases in pressure. The air could then be heated and delivered to the rear of the car. Just a thought.
You sure the rules say that?hardingfv32 wrote:The control arm is aero neutral per the rules. If that is the case how do you get down-force?Nickel wrote: that the exhaust flows directly under it for "no meaningful downforce" unless you're arguing that this is simply to redirect the air at the diffuser.
Brian