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Team: Adrian Newey (CTO), Petr Prodromou (CA), Rob Marshall (CD), Christian Horner (TP)
Drivers: Sebastian Vettel (1), Mark Webber (2), Sebastian Buemi (reserve)
Yes, that is what air dams do. And what air dams do is not what you want there. That was my point.that's what air dams do. and gurneys are similar. you impede the flow to gain pressure or loose pressure in a particular place.Air dams can be useful, in the right places, but this is not one of them.
Designers try "waist" the area between the front tires and under the nose (remember, 3D) to get as much high-energy air to the undertray as they can, much like they waist the rear bodywork to get air to the rear wings, top of the diffuser, etc. An air dam in this area (whether top, sides or bottom) would impede the flow they want most.
Thanks for giving me credit.officialsushy wrote:
look at the nose top and blow.Below you can see hole.It is from that letter box.any suggestions what this could be
Could the lower slit be an air intake that feeds the slit on top of the nose in an effort to offset the increased drag of its stepped design?officialsushy wrote:[Slit under nose]
look at the nose top and blow.Below you can see hole.It is from that letter box.any suggestions what this could be
Both slits are air intakes. My guess is the lower one cools the KERS unit, which is directly behind the driver's seat, and under the fuel tank.bhallg2k wrote:Could the lower slit be an air intake that feeds the slit on top of the nose in an effort to offset the increased drag of its stepped design?officialsushy wrote:[Slit under nose]
look at the nose top and blow.Below you can see hole.It is from that letter box.any suggestions what this could be
I don't think the designers are very concerned about the drag of the step noses on the new cars. Because the hump looks so ugly, it seems like it should be doing all kinds of nasty things to the coefficient of drag. And it certainly isn't helping, but Formula One cars are incredibly draggy to begin with because the designers are almost always willing to accept more drag for more downforce. Which is what they are doing here.bhallg2k wrote:Could the lower slit be an air intake that feeds the slit on top of the nose in an effort to offset the increased drag of its stepped design?officialsushy wrote:[Slit under nose]
look at the nose top and blow.Below you can see hole.It is from that letter box.any suggestions what this could be
The main tip-off is that both slits have forward facing "scoops", for lack of a better term. The top one would have an exit behind the ramp (which would block the oncoming air) if it was an outlet for air.bhallg2k wrote:It's somehow confirmed that both are intakes? Or is that just a consensus opinion?
I don't mean to seem skeptical. I just haven't read anything to that effect, but it's easily possible that I missed it.
I wonder if something like that would work, though. The larger slit, placed in an area that gets much more airflow, scoops some of that air, which then exits through the smaller slit on top of the nose to create a virtual surface that cuts drag.
Or do I have a gross misunderstanding of how such things work?
To answer the other part of your question, yes, what you propose would have the effect you suggest. It would be, in effect, a slightly "active" version of the air dam idea others have proposed. You can read my previous posts for my thoughts on air dams on any part of the car between the front wheels.bhallg2k wrote:It's somehow confirmed that both are intakes? Or is that just a consensus opinion?
I don't mean to seem skeptical. I just haven't read anything to that effect, but it's easily possible that I missed it.
I wonder if something like my "solution" would work, though. The larger slit, placed in an area that gets much more airflow, scoops some of that air, which then exits through the smaller slit on top of the nose to create a virtual surface that cuts drag.
Or do I have a gross misunderstanding of how such things work?
Nice pic!Crucial_Xtreme wrote:RB8 exhaust in action
The effect of the drag on the top of the nose is minimal. I actually think the upper intake would draw in more air than the lower. The ramp leading up to it, the radiused fences on either side, and the radius on top all add up to make it a larger intake overall. That (upper) slot is immediately going through a bulkhead that is an inch thick, or more, making it look smaller than it actually is, if not looked at directly head on.bhallg2k wrote:It's fun to speculate.
As you said, the airflow over the top of the nose is minimal when compared to that underneath. I'd think the larger scoop drawing from a much larger volume of airflow would be enough for a cushion of air to form between the two ridges on top of the nose. In which case, the top slit's orientation would be an asset.
