Tom wrote:Well vacums are how wings work (in a bizarre complex manner involving pressure) so is there anyway we could use this to help ground effects? All good ideas come from idiotic ones.
Here you have a ground effect based on your idea: notice how far away is the ground! This surely qualify as an effect. As Tomba points out, the braking and accelerating grip is totally screwed:
Of course, the "flexi-wing problem" is bigger.
I have an hour to spare, waiting for a mail so, again, this is a long post, sorry.
Now,
seriously: there is a part of the car that is a sure candidate for your idea. You know, as some members told us, it is difficult to find a part of the chassis or the structure to fill, which has to be cleverly designed to be concealed, sealed (no pun intended) and is probably filled with this aluminium honeycomb they use. This left us with...
the tires. Have you noticed they are hollow? I did. They are full of air! They are even substituted at pit stops! Muahahahahaha!
This leaves us with the problem of the last set of tires and the uncorruptible FIA stewards... mmmmm, maybe a cousin I have in Medellín can fix even that last one. Well, at least, sticking to the theory only, you can use this for the first and second stints on a two stops strategy. But if you are ahead at third stint, after Imola and the such, you already know what will happen! Double muahahaha!
The air in the tires not only has to be carried, so it robs you of momentum: it also rotates. Any decrease in this mass gives you a better acceleration,
- not only because you need less momentum, (as you point out)
- but because you are diminishing the rotating mass on the tires, which is another energy that the engine has to give you, (as I point out), and finally,
- because you are diminishing your unsprung mass, (as I've heard this is a mantra in this forum and it sounds smart).
I guess other members can find additional reasons of why the wheel is a special place to "shave" some weight, from less solid driving axles to smaller brakes to any other thing. You know those guys...
There is a fourth effect: some of you who might understand the giroscopic effect now can see that you are also diminishing the rotational inertia (this is a tertiary effect, I concede). If you do not know about giroscopes, skip this: it is a "nerd" effect.
Anyway, I have you bored to death to convince you that this idea affects several departments in design.
Besides, the density of the air you are substituting with, let's say, helium, is increased, because it is pressurized so Tomba's calculations have to be corrected. Unfortunately, the problem here is the Boyle's law: it states that if you use a gas with less density, like helium, you have to increase the pressure of the gas to reach the same volume, but I am not sure how much and I am getting tired.
You could heat the gas, which leads to problems with the rubber. But let's not be discouraged by small things like the theory of gases... we are breaking ground!
Let's see: given that F1 tires have a maximum radius of 66 cm, a maximum width of 35.5 cm and 38 cm (front/rear), and a minimum wheel bead diameter of 32.8 cm, this left us with:
V = (2*(0.355) + 2*(0.38 ))*pi*(0.66-0.328)^2
V = 0.509 m3
This is half a cubic meter or 509 liters. Looks good. The tires are inflated at 1.4 bar (or at least they are measured at this pressure, feel free to correct me... if you dare
). Using Tomba figures for density and pressure and assuming 20 centigrades (gross underestimate), this gives us a weight of air in the tires that is:
W = (0.012-0.00008) *1.4 bar/1.013 bar * 1000000 cm3/m3 * 0.509 m
W = 8.4 kg
Not bad. This is 8.4/600 * 100 = 1.4% of the total weight of the car, in the unsprung, rotational mass. Big figure. This could be substituted by around 10 liters of extra-fuel, good for 2 or 3 laps. It could shave, once you have used this fuel, on a typical 1m 30s lap almost 2.5 seconds, if times were proportional to weight, which, as I have explained to the point of brain pain, is probably an underestimate.
But Tom, this is the sad part,
we are not that smart. Or maybe we are, but we are not alone. At least in drag racing, nitrogen is used instead of air. The reason is related to the pressure increase you get when you heat the tires and the change of size of the patch, not the weight of the car, I think. While I wrote this post m3_lover already spoke of nitrogen used in F1.
Sorry, mail arrived, I'm sure you can find your own links to this use of nitrogen on race tires.
The helium idea is totally new, I think, but, as an "aficionado" I'm probably wrong. What the heck, if you speak with Ferrari (suffer, Manchild!), be sure to mention my name. Don't worry, MC, I was joking! If they hire us we can sabotage something to "compensate" for their cheating! Muahahaha!
