Pup wrote:Raptor22 wrote:Stalled flow at low speed....?? Yes perhaps at 60-80km/hr in the pitlane, but here mechanical grip is more important anyways.
where the wings need to efficient is from around 140km/hr to +300km/hr since this is the zone where the aerodynamics really needs to work at it best. Most f1 type wings will have uncoupled flow or stagnated flow at low speeds. However the McLaren wing will not be stalled until the blowing kicks in. The blowing is there to delay the stall till beyond the speed that the car is geared to be capable of for a given circuit. the wing will still function like any other well designed wing.
No offense intended, but I think you have a fundamental misunderstanding about how the setup is supposed to work. The blowing prevents the stall - it does not cause it. And if the wing is supposed to stall on the straight, at high speed, then it certainly would be stalled at lower speeds. So the blowing/sucking/whatever (it's blowing) would prevent that, and then it is cut off or disrupted somehow along the straight.
That, of course, is if you believe the wing is supposed to stall on the straight. If you don't, then the theory is the same, but the wing is blown constantly, never stalls, except perhaps at very low speeds, and the benefit is simply greater downforce and/or less drag.
No offence taken because I do have an understanding of what is going on with the MP4/25 wing. There is no magic or f1 specific rule book for F1 wings. these are wings, wings are wings, they all obey the same rules.
The fundamental difference between aircraft wings and F1 wings is that if an aircrafts wing stalls people die. If an F1 wing stalls, there still 4 bits of rubber holding the vehicle to the earth. Beyond that there is no difference.
let get a belief reference here;
1) I do not subscribe to the driver knee on off valve. Thats science fiction. the person who proposed that is strangely quiet...
2) I do not believe that a stalled wing is desired in any form here where aerodynamic grip is required.
3) I believe the blown flap is being used to increase the efficiency of the wing at high speed and to reduce drag under this operating condition.
4) I believe the wing is designed to keep the boundary layer attached through the useful aerodynamic speed range.
5) I believe that at low speed, all F1 rear wings are operating with a sub optimal flow. Hence in the MP4/25 there is no opportunity to generate the pressure required to drive the flap blowing unless there is a feedback mechanism connected to an EGR device from the engine. Therefore this wing (MP4/25) also operates sub optimally at lower speeds were mechanical grip is more important.
Now there is a misconception that at low speeds the F1 wing is stalled. Perhaps but I don't believe that it is since the wings leading edges at aligned to the angle of the flow approaching it.
Just beneath the feed tube the leading edge of the wing has an upward curl indicating flow is falling off the sharkfin onto the wing. At its edges at the end plates the leading edge is closer to a zero degree AoA since the flow here is more parallel to the ground.
The 2nd planes leading edge does not operate at a very high angle of attack to the flow approaching it either since this flow is influenced by the main element. So no I do not believe the wing is stalled at normal low racing speeds. Perhaps below 60km/hr it is but then most high performance f1 wings will have an optimal speed range within which they work most efficiently.
At these speeds blowing the flap is not possible. where is the energy coming from? Divine intervention? Is god sitting on the shark fin blowing air through it or are you suggesting a pump is being used?
so what the blowing is achieving is moving the efficient speed range from lets say (that means I am thumb sucking to illustrate a point) 80km/hr to 300km/hr to a more useful 80km/hr to 340km/hr.
) to be true, please Mr Aerogods make it so...
