I think the speed in your equation needs to be (v1-v2)/2.Blanchimont wrote:If KERS generators would be connected to both the front and rear wheels the maximum power can be estimated as:
Power [W] = mass of car [kg] x acceleration [m/s²] x speed [m/s]
For a F1 car in qualifying this would result in about
P ~ 645kg x 5 x 9,81m/s² x 92m/s = 2910627 W ~ 2,9 MW.
But as the acceleration is heavily dependent from speed, this could only be achieved for a very short moment of time. And imagine how big the generator would have to be to cope with such big powers!
That's assuming all the braking power was converted to electricity.xpensive wrote:This is in line with Brembo's numbers of 2000+ kW, but even if there were such generators, no battery could handle the charge.
http://formula1.brembo.com/en/home-en/b ... cards.html
I think Blanche is correct, we're talking about Power as in Force times Speed here where;wuzak wrote: ...
I think the speed in your equation needs to be (v1-v2)/2.
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Surely that gives only the peak number, where the average is much more useful.xpensive wrote:I think Blanche is correct, we're talking about Power as in Force times Speed here, where;wuzak wrote: ...
I think the speed in your equation needs to be (v1-v2)/2.
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Force is Mass times Accelleration (Negative)
And
Speed is at when braking begins, or (v1+v2)/2 as the average over the braking sequence
However, I believe that 5 g is a bit much, 3-4 g is perhaps more realistic?
Peak power number indeed, like the title of this very thread, and just like your peak deceleration number below?wuzak wrote: ...
Surely that gives only the peak number, where the average is much more useful.
If you have 1000kW average over 5s you have 1000kJ of energy. But the 2000kW is only over 0.0000001s, so isn't significant in the scheme of things.
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Isn't arguing for the sake of arguing great fun Wuz?wuzak wrote: ...
Was just looking at your link, and saw a peak braking number of 5.9g at the end of Monza's main straight (low downforce, remember), 5.98g at the end of the back straight in Montreal (leading into the final chicane) and 6.07g at the entry to turn 3 at Albert Park.
The title of the thread is "How much power if KERS recovered energy from the frontWheel" - which does not indicated peak power to me.xpensive wrote:Peak power number indeed, like the title of this very threadwuzak wrote: ...
Surely that gives only the peak number, where the average is much more useful.
If you have 1000kW average over 5s you have 1000kJ of energy. But the 2000kW is only over 0.0000001s, so isn't significant in the scheme of things.
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I wasn't trying to argue. Just pointing that the peak number used by Blanchimont is not unusual.xpensive wrote:and just like your peak deceleration number below?
Isn't arguing for the sake of arguing great fun Wuz?wuzak wrote: ...
Was just looking at your link, and saw a peak braking number of 5.9g at the end of Monza's main straight (low downforce, remember), 5.98g at the end of the back straight in Montreal (leading into the final chicane) and 6.07g at the entry to turn 3 at Albert Park.
