It's not a huge change in kV, but may make enough of a difference to delay detachment.
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Formula One's most successful team, Scuderia Ferrari have unveiled their brand-new machine, the F1-75 with which the Italian outfit's young driver pair of Charles Leclerc and Carlos Sainz will race in the sport's 73rd season.
Aston airflow may look more natural but to me it *feels* to me like there is more development potential with solutions without the massively undercut sidepods (à la Ferrari/McLarn). Take the Aston idea: the airflow is already about as clean as you can achieve with the huge undercut when it arrives at the rear; where can you achieve more gains substantially with this idea? Can always achieve better airflow over/around sidepods however with an idea like McLaren. On the other hand it seems difficult for the big undercut cars especially with the less controlled cooling louvres of AR/AM to change their bodywork much to achieve a lot better flow to the beam wing with the same concept. It looks as though it'd be easiest to find early performance but harder to develop to my untrained eye. Of course I'm happy to be wrong as it'll be an opportunity to learn!JPBD1990 wrote: ↑18 Feb 2022, 00:16I see what you mean with this. Anyone more skilled to comment please do so, but to me it looks like the Ferrari solution would energise the air and potentially spool up a vortex through the small undercut and over the top of the rear floor surface, where the Aston appears to have a natural airflow across that area.Fede90 wrote: ↑17 Feb 2022, 20:26Not conviced about new Ferrari's sides.
https://i.postimg.cc/kgQDPYPd/Senza-titolo.jpg
Aston seems have more space to flow the air from the front to the rear by the "slim zone" beneath radiators
Anyone?
It’s inconsequential, or you’d have to model the cars at different times of day / cloud cover, etc.godlameroso wrote: ↑18 Feb 2022, 00:20Having hot radiator air come out of the top of the sidepods like that will allow air to stick to the surface. Believe it or not, the kinematic viscosity of air increases with temperature, you can see this as the boundary layer on the ground increases on hot days.
https://www.engineersedge.com/images/air-viscosity.png
It's not a huge change in kV, but may make enough of a difference to delay detachment.
Dude, the air coming off the engine is ~140c, different times of day/cloud cover, etc is inconsequential if anything. 140c vs 30c = 180% increase in kV.Hoffman900 wrote: ↑18 Feb 2022, 00:25It’s inconsequential, or you’d have to model the cars at different times of day / cloud cover, etc.godlameroso wrote: ↑18 Feb 2022, 00:20Having hot radiator air come out of the top of the sidepods like that will allow air to stick to the surface. Believe it or not, the kinematic viscosity of air increases with temperature, you can see this as the boundary layer on the ground increases on hot days.
https://www.engineersedge.com/images/air-viscosity.png
It's not a huge change in kV, but may make enough of a difference to delay detachment.
Ferrari, I believe, is quoted that this had a positive effect in the wind tunnel, which would account for any of that.
Are you going to keep rating my post negatively for calling you out?godlameroso wrote: ↑18 Feb 2022, 00:28Dude, the air coming off the engine is ~140c, different times of day/cloud cover, etc is inconsequential if anything.Hoffman900 wrote: ↑18 Feb 2022, 00:25It’s inconsequential, or you’d have to model the cars at different times of day / cloud cover, etc.godlameroso wrote: ↑18 Feb 2022, 00:20Having hot radiator air come out of the top of the sidepods like that will allow air to stick to the surface. Believe it or not, the kinematic viscosity of air increases with temperature, you can see this as the boundary layer on the ground increases on hot days.
https://www.engineersedge.com/images/air-viscosity.png
It's not a huge change in kV, but may make enough of a difference to delay detachment.
Ferrari, I believe, is quoted that this had a positive effect in the wind tunnel, which would account for any of that.
I'm sure that teams would have looked at all these options anyway. I can't imagine them not thinking of such a design possibility, at least roughly.Emag wrote: ↑18 Feb 2022, 00:04One thing is for sure. Since it is one of the possible design philosophies that was actually given by the FIA, it must have definitely, at least, been considered/evaluated by the other teams.
Although it's obvious that Ferrari's concept is not 1:1 with the concept given by the FIA, so it is possible the other teams might have overlooked something.
Thanks for the reply! To clarify, you mean the Ferrari or AM has the more development potential to your eye?organic wrote: ↑18 Feb 2022, 00:22Aston airflow may look more natural but to me it *feels* to me like there is more development potential with solutions without the massively undercut sidepods (à la Aston&Alfa). The airflow is already about as clean as you can achieve with the huge undercut when it arrives at the rear; where can you achieve more gains substantially with this idea? Can always achieve better airflow over/around sidepods however. Seems difficult for the big undercut cars especially with the less controlled cooling louvres of AR/AM. It looks as though it'd be easiest to find early performance but harder to develop to my untrained eye.JPBD1990 wrote: ↑18 Feb 2022, 00:16I see what you mean with this. Anyone more skilled to comment please do so, but to me it looks like the Ferrari solution would energise the air and potentially spool up a vortex through the small undercut and over the top of the rear floor surface, where the Aston appears to have a natural airflow across that area.Fede90 wrote: ↑17 Feb 2022, 20:26Not conviced about new Ferrari's sides.
https://i.postimg.cc/kgQDPYPd/Senza-titolo.jpg
Aston seems have more space to flow the air from the front to the rear by the "slim zone" beneath radiators
Anyone?
I edited my previous post as I made a mistake or twoJPBD1990 wrote: ↑18 Feb 2022, 00:35Thanks for the reply! To clarify, you mean the Ferrari or AM has the more development potential to your eye?organic wrote: ↑18 Feb 2022, 00:22Aston airflow may look more natural but to me it *feels* to me like there is more development potential with solutions without the massively undercut sidepods (à la Aston&Alfa). The airflow is already about as clean as you can achieve with the huge undercut when it arrives at the rear; where can you achieve more gains substantially with this idea? Can always achieve better airflow over/around sidepods however. Seems difficult for the big undercut cars especially with the less controlled cooling louvres of AR/AM. It looks as though it'd be easiest to find early performance but harder to develop to my untrained eye.JPBD1990 wrote: ↑18 Feb 2022, 00:16
I see what you mean with this. Anyone more skilled to comment please do so, but to me it looks like the Ferrari solution would energise the air and potentially spool up a vortex through the small undercut and over the top of the rear floor surface, where the Aston appears to have a natural airflow across that area.
Anyone?
shouldn't come on here so late. Personally I think Aston/Alfa undercut designs might offer less development potential than the other ideas we've seen but be easier to extract performance from immediately (reliably)
pierrre wrote: ↑17 Feb 2022, 20:13sidepod and rear wing shape
https://scontent.fbki2-1.fna.fbcdn.net/ ... e=62135189
Radiators look outboard mounted. I wonder if, like is suspected of Williams in particular, the inboard portion of the inlet aims to drive fresh air straight through and out of the louvres? Would this help to energise the hot dirty air coming out of the radiator further back?
