With the new regulations in store, front wing design freedom will be very restricted. Indeed, we will see the front wings moving towards pseudo-spec standard (with the exception of the Y250 region). This article will be one last toast to the outgoing front wings as well as a in depth breakdown of the new front wing regulations
They do generate lift, negative lift. The air being displaced over the bargeboards is MUCH slower than air travelling underneath. It's close enough to the road that it's in ground effect at all times as well. More than the front wing in fact.jjn9128 wrote: ↑25 Jan 2019, 11:33This is correct. As I've said a lot in this thread bargeboards are downwash (lift) generators. That "cat fish whisker" wing may still be used in 2019 but will be less effective as the height is reduced. It could also start to interfere with the footplate aerodynamics as the pressure fields interact more strongly.Just_a_fan wrote: ↑25 Jan 2019, 10:17I'm not sure that's a wing as in a device generating lift. I think it's a device to tidy up and direct flow.
They can get some outwash - because the trailing edge can aim outwards at 15° from the car centreline. They can also angle the flaps into the endplate at <12° from horizontal (in the plane of the wing sweep). It's difficult to see where a VG could go as the wing has to be at least 10mm thick with a 5mm radius applied. The rear portion of the endplate can only be 12mm thick - which leaves 2mm... I mean you can generate a vortex with that but how beneficial it would be...Maritimer wrote: ↑27 Jan 2019, 06:51Even with the end plates being so tightly prescribed I find it hard to believe that could really hinder teams from getting outwash off them given how far out they are now. Surely it would have been wiser to make the wings narrower so the tire would completely interfere with any outwash attempts? Especially given they can still put VGs on the endplates, wouldn't be too hard to have them work together to push voteces outboard. Will be interesting to see what these alleged loopholes lead to.
Not suicidal... I think lengthening the chassis is a better way to remove those interactions without compromising total downforce. With the placement of aerodynamic surfaces so limited I think it's preferable to maximize the usable space.
1) 2009 and 2010 had double diffusers which expanded turbulent wake from the diffuser.AMG.Tzan wrote: ↑27 Jan 2019, 17:32Brawn said that with the 2019 regs cars will be able to get up to 0.8 secs (IIRC) behind another car without losing grip. I am wondering what about 2009-2013 when cars (notably front wings) were really simple, how close was a car able to get to another car without losing grip???
I think the best example of these regs was 2011-2012 when DRS, Pirelli and KERS were introduced and from what i remember cars where really good at following each other! From 2012 onwards front wings started getting more and more complex with more and more elements!! That's why i believe that a 3 element FW is the right solution than a 5 element FW they are going to use in 2019!
I'd agree with some points, not on others there... skinny wings aren't necessarily great for following, but covered wheels (certainly rear wheels) would be hugely beneficial. IMO if they really wanted to 'fix' overtaking they'd ban strakes in the diffusers, it would lead to less dynamic pressure loss, fewer vortices in the immediate wake, and lower turbulence in the far field wake - this is what really impacts the front surfaces of a following car, not the rear wing.Shakeman wrote: ↑28 Jan 2019, 13:38Until F1 learns from Indy Car and the likes of Formula E with fan boost attack modes there will never be 'close' racing.
As long as the formula is dominated by aero rules that are so upset by turbulent air. I think it's quite telling that when ever an F1 team produces a Future F1 concept car (Red Bull and McLaren 2050 immediately spring to mind) it's got skinny wings or covered wheels and not covered with ugly vortex generators and finned bargeboards!
It's almost like the teams are trying to say something!
IIRC the number quoted to be capable to overtake in 2009 was a 1.5s pace advantage. Whereas before it was more like 2s. I think the OWG said 0.5s for 2009... but then double diffusers and by the end of they year they had more DF than 2008.turbof1 wrote: ↑28 Jan 2019, 01:141) 2009 and 2010 had double diffusers which expanded turbulent wake from the diffuser.
2) 2011-2013 did already have significant outwash designs plus crazy blown/coanda diffusers.
Cars generally were able to follow closer, but already had large wholesale difficulties to get within 1.5s.
A lower element front wing will not necessarily translate into less turbulent wake. If teams can still agressively tackle the flow with 3 elements, you aren't any better off. There are several things you can do better instead, like increasing the bodywork around the wheels so teams don't go so agressive with turning flow away from the wheel.
Drafting/stipstreaming happens in F1, the same process that robs the cars of downforce also reduces drag. The balance of straight line advantage and cornering disadvantage changes race-to-race. It's just that they can't get into the slipstream because they're so disadvantaged in the preceding corner.strad wrote: ↑29 Jan 2019, 21:04This thread has helped me understand a lot but there is still something I don't understand.
Yes the following car finds a lot of disturbed air as it comes up behind another. But why can't it push thru that disturbed air and enter a calm space close behind the leading car.
Like drafting in other series.
