You don't really understand so its a bit difficult for me to explain further. The turbo does not create the power. The turbo only provides the air necessary to combust the 27.77 grams per second of fuel. Its the fuel that holds the energy which in the end decides how much power you get. There are 3 factors deciding how much power the engine can make.kooleracer wrote:How about the turbo, you know have calculated it without the turbo? Doesn't the 500bar GDI has an influence?Holm86 wrote:How much power Mercedes is making from their 2.0 four cylinder has zero to do with efficiency. I know you said you have no technical background but you need to understand that that engine is not restricted in any ways. In a four cylinder 2.0 engine like in the A45 creating huge horsepower figures is not difficult. Street tuners have reached far beyond 345hp in 2.0 engines. That's because you can always add more fuel and air which is what creates the power. What Mercedes has achieved with the A45 engines is a great step in material technology because they can now create so much power reliably.kooleracer wrote: But the V8 is from 2006 and also was effectively a castrated V10. We are now almost 8 year further. Also with the Turbo always spinning because of the MGU-H isn't that a big improvement? ( i dont believe this engines makes 740 without the electrical part. But 640-660 isn't that possible? Because i find it hard to believe that a AMG A45 makes 350 out of a 2.0 four cylinder and that thoroughbred F1 engine would not make more than 600hp. I know that these papers spreading these rumors aren't always accurate. But those same papers have been right for more then a year about the engine advantage Mercedes would have and we know can see that they were right on that one. So maybe there is some truth in those reports.
In a fuel-flow regulated formula as F1 you can't just pump in more fuel and air to create more horsepower. So you need to get as much power out of the fuel you are given which means to get more power you need to increase the thermal efficiency of the engine.
Typically fuel has a energy density of 46 mega joules per kilogram. That's 46.000.000 joules / kg. The fuel-flow is capped at 100kg/h or 100.000g / 60 / 60 = 27,77 grams per second.
And to calculate the energy density into grams as well: 46.000.000 j/kg / 1000 = 46.000 j/g.
One watt is = one joule per second. So the maximum amount of energy going into these engines are 27,77 g/s x 46.000 j/g = 1277420 watt.
1277420 watt / 1000 = 1277,42 Kw.
But a gasoline engine is not 100% efficient. Far from it. Normal is about 32% so lets calculate a bit optimistic and say 35%.
1277,42 Kw x 0,35 = 447,1 Kw. So the power output of engine is 447,1 Kw or 447,1 Kw x 1,34 = 599,1 hp.
So you see by increasing the efficiency you get more power. Not like on street cars like the A45 AMG where you can just add more fuel and boost to get more horsepower.
1. the amount of fuel. (which is capped at 100kg/h as per regulations)
2. the energy density of the fuel.
3. the efficiency of the engine.