Isn't that bad for unsprung weight (1st photo) and moment of inertia (both photos)? I thought that was why F1 had as much as possible near the centreline of the car.humble sabot wrote:So, thinking about the rear suspension. I was wondering, would it make sense to fit a long control arm setup? Or is it conceivable that they might be going a similar way to Ron Mathis, who's also a race car designer working on a road car platform:
http://static3.consumerreportscdn.org/e ... ension.jpg
I do wonder if it would still be so light if it was engineered to deal with 4g of cornering, but it apparently works pretty well on the 900-1000lb Edison 2
Pretty sure the GTR LM Nismo setup isn't germane since it's unpowered and the geometry doesn't fit.
http://www.racecar-engineering.com/wp-c ... upnis6.jpg
The Model S with old battery packs sure. The new one is just over 1,300lbs(~600kg). The motor and inverter are actually very compact and light for the power level. An LS3 all aluminum crate engine weighs ~190kg, then add oil, coolant, transmission, drive shafts, differential, prop shaft, and you're looking at roughly 285kg powertrain. The big issue is energy density, gasoline is much better than batteries are right now. Cutting 1/3 off the weight of the battery pack for the same power makes electric cars seem very attractive.rjsa wrote:A Model S drags north of half a ton in batteries alone. Another 170kg for motor and inverter. The ICE would probably run below half that weight on a full tank.Andres125sx wrote:That´s true. But batteries have the advantage (compared to a ICE) they can be splitted in several packages and placed at different locations to optimize CG. Maybe not enough with a design this aggressive tough
40%, is that accurate? Sounds on the high side to me, or are we talking hybrids?godlameroso wrote:With the efficiency of an ICE being roughly 40% most sporty cars have ~85-140kWh worth of gas in the tank.
A normally aspirated engine of a roadcar is roughly 29% efficient and has been for years. The first season of the new F1 formula they managed to get 40% efficiency, prior to the switch they had stagnated at 29% also. They are now (according to Mercedes blurb) about 45% efficient.godlameroso wrote:I'm being purposefully conservative, as I find it's easier to make a point when using conservative estimates.
Underpromising and overdelivering is a viable strategy.
I don't get the point of that axle. From a bit of reading up on their blog it claims to "significantly reduces mass, complexity, parts count" and "We believe we can replace the twist beam suspension, even in existing cars". However, looking at this suspension it looks heavier, wayyyyy more expensive, has more parts and obviously a restricted wheel travel compared to a twist beam.humble sabot wrote:So, thinking about the rear suspension. I was wondering, would it make sense to fit a long control arm setup? Or is it conceivable that they might be going a similar way to Ron Mathis, who's also a race car designer working on a road car platform:
http://static3.consumerreportscdn.org/e ... ension.jpg
I do wonder if it would still be so light if it was engineered to deal with 4g of cornering, but it apparently works pretty well on the 900-1000lb Edison 2
50% efficiency improvement, and people complain about the sound... I know many people is a lot more sentimental than myself, but since I´m a very pragmatic person I simply can´t understand people complaining about sound when the engine is producing 50% more power with same fuel, in just 2-3 seasons. When I see people complaining I can´t stop myself thinking... "do you consider more important sound and tone than power and efficiency". That´s the way I see it.graham.reeds wrote:A normally aspirated engine of a roadcar is roughly 29% efficient and has been for years. The first season of the new F1 formula they managed to get 40% efficiency, prior to the switch they had stagnated at 29% also. They are now (according to Mercedes blurb) about 45% efficient.godlameroso wrote:I'm being purposefully conservative, as I find it's easier to make a point when using conservative estimates.
Underpromising and overdelivering is a viable strategy.
Haven't seen a better summary of the current engine formula. =D>Tim.Wright wrote:As an engineer/technical enthusiast I see F1 powertrains as an overcomplicated-suboptimal solution forced upon the teams by skyrocketing minimum weight requirements - developed at a completely unsustainable cost for purely commercial reasons which all in all has had a negligible effect on the actual racing.
That's not engineering - it's politics and marketing.
Something I like about this AM-RB tie up is they aren't so attached to this political nonsense. And in effect you can't be if your final target is performance.
=D> =D> =D>Tim.Wright wrote:I see F1 powertrains as an overcomplicated-suboptimal solution forced upon the teams by skyrocketing minimum weight requirements...
