Team: Adrian Newey (CTO), Rob Marshall (CD), Dan Fellows (HA), Christian Horner (TP), Pierre Wache (CE)
Drivers: Daniel Ricciardo (3), Daniil Kvyat (26)
Team name: Infiniti Red Bull Racing
Good shot of todays taped gaps on the RB11 (next to the exness logo and the cooling outlets):SectorOne wrote:I think other teams tape over the gaps of the different body parts so i´m not so sure the difference is that big.
Looks amazing though.
calculations of full-chord laminar flow were and are simply wrongtrinidefender wrote:We'll the thing is even things as small as dead bugs stuck to bodywork and he bump created by tape is enough to somewhat kill laminar flow. This was discovered when designing the P-51 Mustang's wing. By calculations it should have been a true laminar flow design right across its cord. Instead, what they discovered is that due to wartime manufacturing standards, usual (un)cleanliness of the airframe out in the field, one or two bad rivets, bad paint work and a host of other problems, it was never really able to achieve true laminar flow. Granted it was still a good wing design.
Back to formula 1, the less bumps on bodywork the better, this includes tape.
I agree 100% but my point still stands that in the wind tunnel in perfect conditions and without prop wash laminar flow was achieved. As you correctly stated, in the real world this was simply not the case (I had forgotten about the prop wash effect also killing laminar flow). Maybe using the analogy of laminar flow was a horrible one vs removing gaps in panels was a horrible one. Forgive me.Tommy Cookers wrote:calculations of full-chord laminar flow were and are simply wrongtrinidefender wrote:We'll the thing is even things as small as dead bugs stuck to bodywork and he bump created by tape is enough to somewhat kill laminar flow. This was discovered when designing the P-51 Mustang's wing. By calculations it should have been a true laminar flow design right across its cord. Instead, what they discovered is that due to wartime manufacturing standards, usual (un)cleanliness of the airframe out in the field, one or two bad rivets, bad paint work and a host of other problems, it was never really able to achieve true laminar flow. Granted it was still a good wing design.
Back to formula 1, the less bumps on bodywork the better, this includes tape.
it's not possible (without a suction system) - the term laminar flow' aerofoil is convenient but not to be taken literally
the NACA section used in the 51 had super-low Cd at very small AoA in wind tunnel model tests (at tunnel Re no)
it' may be a myth that even a perfect 51 could do this - at that time it was shown to be impossible anyway due to propellor turbulence
the 51 section was immediately superceded eg for the A26 and P63 by another 'laminar flow' one that worked better in real life
though in windtunnel models its Cd at very small A0A was worse
(though 'lf' aerofoils did have structural benefits at speed (now forgotten),their proponents had also not considered Mach effects)
discontinuities have little or no effect in accelerating flows - "discuss"
works D type Jaguars were 'said' to be 3 mph faster from having nose numbers spray-painted rather than self-adhesive plastic film
did they test this ?
in F1 the Cd from detached flow must be about 5 times greater than the D type's (and 50 times greater than a plane's)
if Red Bull had a magic paint that eliminated skin drag wouldn't they happily trade it away for Merc level of engine power ?
fwiw I don't think laminar flow was achieved (and I thought this was well known) but certainly the zero lift Cd was tinytrinidefender wrote: ......I agree 100% but my point still stands that in the wind tunnel in perfect conditions and without prop wash laminar flow was achieved.
P.s. Part of the additional structural benefits at speed came from the reduction in wing twist achieved at high speed due to aileron deflection. As the majority of their camber profile was constructed fur back along the chord of the wing it meant that the main soars were closer to the ailerons. This placed less stress on the wing to twist as if the only spar at the outer edge of the wing was the D spar at the very front. As per the transonic region and Mach limits, I am actually doing some reading on that now. Ironically I don't believe that the P-51 had the anywhere near the highest Mach limit for WWII aircraft types but I could be very wrong about this.
From the MP4-30, a handful of (tiny) arguments in favor...trinidefender wrote:My point before was simply that having no gaps in the bodywork will always be smoother and produce less skin friction drag than even using tape or putty or whatever else (unless of course in some weird way teams are using the golf ball dimple effect but that is unlikely as all hell). Whether RedBull does it for this reason I am not in a position to say.
They are not the quickest through the twisty stuff though, which means they have gone backwards relative to the past few seasons and can't blame everything on renault. With a mercedes engine they would probably be around ferraris pace, maybe slightly quickerdjos wrote:So I think Silverstone proves nicely that there is nothing wrong with the rb11 chassis or aero, both cars flew thru the fast twisty stuff and where only slow where horsepower mattered.
I agree. The RB11 hasn't been great so far this season, but things start to turn for the better. Kvyat had pretty good pace at Silverstone. Personally I think the RB11 is at least as good a car as the Ferrari and Williams. Probably better. It's just that they need more power, better driveability, less cooling requirement etc. The result of having a bad engine isn't limited to straights only: to hit a decent top speed the need to limit drag and therefor downforce, they also probably have more issues getting the tires to work as well. All in all if they'd had a Mercedes or even Ferrari engine I believe they would be right at the front, racing the Mercs (but coming 2nd).djos wrote:So I think Silverstone proves nicely that there is nothing wrong with the rb11 chassis or aero, both cars flew thru the fast twisty stuff and where only slow where horsepower mattered.
Don't forget the surperiour drivabiity of the Mercedes engine where it is far ahead both of Ferrari and Renault. Honda has good drivability but lacks top end outright power... That also means easier setup. I also think because of Merc turbo solution the engine gravity also is lower than the other threeME4ME wrote:I agree. The RB11 hasn't been great so far this season, but things start to turn for the better. Kvyat had pretty good pace at Silverstone. Personally I think the RB11 is at least as good a car as the Ferrari and Williams. Probably better. It's just that they need more power, better driveability, less cooling requirement etc. The result of having a bad engine isn't limited to straights only: to hit a decent top speed the need to limit drag and therefor downforce, they also probably have more issues getting the tires to work as well. All in all if they'd had a Mercedes or even Ferrari engine I believe they would be right at the front, racing the Mercs (but coming 2nd).djos wrote:So I think Silverstone proves nicely that there is nothing wrong with the rb11 chassis or aero, both cars flew thru the fast twisty stuff and where only slow where horsepower mattered.
It's also 18 kg lighter. At least it was last year. Difference may not be so high anymore, but it's almost certainly there.toraabe wrote: I also think because of Merc turbo solution the engine gravity also is lower than the other three
