is this a sign that they are moving away from cosworth and developing their own engine?
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F1 will see a complete change in engine regulations in 2014, and we're having a closer look at what that means exactly
is this a sign that they are moving away from cosworth and developing their own engine?
Off topicAnth wrote:Now that Williams are working with jaguar on the new jag supercar, which will have a 1.6 turbo engine
By charging batteries.WilliamsF1 wrote:Off topicAnth wrote:Now that Williams are working with jaguar on the new jag supercar, which will have a 1.6 turbo engine
But how does 2#94hp gas turbines provide enough power for 4#195hp electric motors?
We are in the 33% efficiency territory. For a quick evaluation you can say that you simply devide the fuel saving percentage by the factor of three which you can do if the engine develops similar power. Thats how I quickly figured 42% for the new power train. It can't be too far of if you get to the same figures.xpensive wrote:42% sounds might precise, it would be interesting to learn how you arrived at such a definite number WB?
Given how knowledgeable i know you are X, i can only imagine there's a difference in concept somewhere here, are you talking about consumption at WOT? because otherwise layout does matter as it determines % of time spent at WOT, partial throttle and off throttle.xpensive wrote:
And ass a response to the question below, the answer is no, track layout doesn't matter whatsoever.
Tikavi, thanks for bringing a dose of reality into this threadtikavi wrote:It is, try to push 1.6l 100bhp car to it's limit, and you'll see... 30l/100km,WhiteBlue wrote: (...)
If you want to express that in milage you have to look at 180L of petrol for a 300 km race today which translates into 60L/100km (3.92 mpg). In 2013 this will go down to 39L/100km (6.03 mpg). This is not impressive by road car standards but it will at least start to approach what LMP1 cars do today. Mind you LMP1 will still be much better than F1 but F1 would not look quite so ridiculous.
for example my little Ford Escort 1.6i (90bhp) on the racetrack burned about 28l/100km. You don't want to know how much fuel eaten my friend's IS200(2.0 R6 155bhp).
With all due respect WB, I have to say that your way of arriving at 42% was rather presumptious, just because the FIA throws out a number for fuel savings, together with an "xpected" power output, it doesn't mean it will play out that way?WhiteBlue wrote:We are in the 33% efficiency territory. For a quick evaluation you can say that you simply devide the fuel saving percentage by the factor of three which you can do if the engine develops similar power. Thats how I quickly figured 42% for the new power train. It can't be too far of if you get to the same figures.xpensive wrote:42% sounds might precise, it would be interesting to learn how you arrived at such a definite number WB?
I'm pretty sure those figures will stand up. They have had years to go over them in endless expert talks and crunch numbers. The participants of the expert group have a lot more resources than you and I and we have come to similar results.xpensive wrote:With all due respect WB, I have to say that your way of arriving at 42% was rather presumptious, just because the FIA throws out a number for fuel savings, together with an "xpected" power output, it doesn't mean it will play out that way?
Your figures do not consider the huge increase in recovered energy. The kinetic energy recovery alone will be four times the amaunt we have today. And then you have to add the compressor power and the electric energy that will be recovered by the turbo compounder. Total power is suposed to exceed 800 hp.noname wrote:Assuming todays V8s:
1. Are producing 750 bhp (560 kW)
2. To do so are consuming 3.76 litres/minute (0.046 kg /second)
3. Caloric value of fuel is 43 MJ/kg
We are getting thermal efficiency of the engine = 28.5%
If the 2013 goals will looks like this:
1. 600 bhp
2. Fuel consumption 2.29 litres/minute (~100 kg/hr, fuel density 0.73)
We'll get thermal efficiency of the engine = 37.5%
Discussion was about engine, not powertrain, efficiency (“Based on that thinking I would expect the engines to have an efficiency of 42%”).WhiteBlue wrote:Your figures do not consider the huge increase in recovered energy. The kinetic energy recovery alone will be four times the amaunt we have today. And then you have to add the compressor power and the electric energy that will be recovered by the turbo compounder. Total power is suposed to exceed 800 hp.
I'm confused to put it mildly, not only apples and pears here, more like a whole fruitbasket.noname wrote: ...
But go back to numbers. If we look at possible 2013 energy balance then actually there is a chance to go a bit above 42%:
1. Average fuel consumption in 2010: 2.75 kg/lap (115.5 MJ/lap available)
2. In 2013 consumption to be 65% of what was in 2010 -> 1.79 kg/lap (75.2 MJ/lap)
3. V8 thermal efficiency = 28.5% -> 32.9 MJ/lap
4. 2013 efficiency = 37.5% -> 28.2 MJ/lap
5. If we add max allowable discharge rate (4MJ/lap) -> 42.8% (powertrain efficiency)
Of course how the rules will finally look like is to be decided. The same can be said about their implementation by the OEMs and the teams.
That's, at least for me, the issue I see in many discussion about 2013 rules.xpensive wrote:I was only thinking about the efficiency of the ICE itself, but if you add all these predicted gizmos, not yet materialized,
the scenario becomes completely different as we can pick any numbers we wish to come true, when the gizmos don't xist?