hape wrote: ↑05 Jun 2022, 12:27
Andi76 wrote: ↑05 Jun 2022, 07:41
Don't know if this information was already posted, but i do not remember that i have this already...
There was a lot of talk about the Ferrari Power Unit and now there rumour is that Ferrari went for a smaller turbo. This means higher RPM what gives them better performance in terms of response and acceleration but also a disadvantage in Topspeed. True or not - this clearly shows again why some peoples claims and conclusions about aerodynamic efficiency/drag levels of different designs because of Topspeed only make zero sense.
I think a smaller turbocompressor means faster spooling up but less efficient (more power needed for a certain pressure/flow output from the compressor). So smaller turbo should have a better response. A small compressor certainly can make good flow/pressure (so engine power) but is less efficient doing so.
But acceleration of a car is Force vs Weight (F = m x a). As all teams approx know the masses of other cars, it’s the acceleration (after rear wheel grip limitation phase) where the teams compare the power with other engines from GPS data. The achieved top speed on a straight and final acceleration phase to get there are much more depending on drag than anything else.
I wonder how many RPMs the shaft speed drops between a smaller framed turbo and a larger one. Once the turbo is up to speed, I dare bet there is very little reduction in speed compared to the two. Especially given the turbo is already fully spooled up before braking and changing down gears.
Of course, this is probably a whole new realm of discussion, but I honestly cant see it being that much difference once you have the turbo working. Initial spool yes, or acceleration at low RPMs in a high gear where you have to wait for boost to build.
A large framed turbo road car is similar. Accelerate hard in 4th gear from say 30mph, you have to wait for the turbo to spool up, but if your doing the same speed in say 2nd gear, you get a lot faster spool.
I seriously cant see F1 teams dropping out of optimum turbo efficiency whilst slowing down for cornering and accelerating out of them. It would be plain stupid to go from 8th gear down to 4th or 5th gear, turbo drop out of its optimum efficiency and boost level and ahve to wait .5-1second for the turbo to get spooled back up and deliver max boost.
Of course, if you had access to gearing, rpm, turbo shaft speed and boost pressure data (which I dont think the public can get) then it is VERY easy to see how the turbo is performing given the size.
Do F1 cars have a motor on the shaft to keep the turbo fully spooled? Sure ive seen something similar before
Mess with the Bull - you get the horns.
