I don't know man. This again reminds me of 2014. Mercedes going full power while Ferrari going for the compact engine to favor aerodynamics. And we know what was the results. Mercedes did it in 2021 too. Those bulgy plenums don't do good for aerodynamics but gave 20 more hp to Mercedes.
I dont think it's about going compact, it's about going lighter (weight rather than size). Also honda produced a stellar engine in 2021 and they went below their 'size zero' concept too. So lets see what comes up.timoth wrote: ↑04 Jan 2022, 10:07I don't know man. This again reminds me of 2014. Mercedes going full power while Ferrari going for the compact engine to favor aerodynamics. And we know what was the results. Mercedes did it in 2021 too. Those bulgy plenums don't do good for aerodynamics but gave 20 more hp to Mercedes.
A point that I think is exaggerated is 8% or about 80hp loss due to the introduction of E10 fuel. Ethanol has 30% less specific energy than gasoline. With a very simple calculation, you could see that the fuel mixture is losing about 3% of energy compared to last year. Now, why does losing 3% of energy reduces power by 8% (80hp)? In road cars, if you switch from gasoline to E10, your consumption increases by 3 to 5 percent (Or in other words, if you use the same amount of fuel, you lose about 3 to 5 percent of power). So why a formula 1 car should lose 8%? I think it's exaggerated by journalists.
Wastegate has to dump into the exhaust per rules.lio007 wrote: ↑18 Feb 2022, 00:38Any idea or explanation for the additional pipe on top of the exhaust?
https://i.imgur.com/iR0WnpO.png
"use of new composite materials inside the PU"
I was thinking carbon fiber cams and rockers!JordanMugen wrote: ↑18 Feb 2022, 04:34"use of new composite materials inside the PU"
I guess the use of good ol' metal matrix composites within the engine block would allow for not just a lighter & thinner but also a more compact engine block? Assuming composite materials refers to metal matrix composites.
I wonder what is main speciality of E10 fuel. Is it harder to combust or has lesser energy in it? If it has lesser energy power loss is inevitable but if it is hard to combust compared to previous one maybe they can use higher compression ratios safely and get better torq. Maybe this is why merc developed new turbotimoth wrote: ↑04 Jan 2022, 10:07I don't know man. This again reminds me of 2014. Mercedes going full power while Ferrari going for the compact engine to favor aerodynamics. And we know what was the results. Mercedes did it in 2021 too. Those bulgy plenums don't do good for aerodynamics but gave 20 more hp to Mercedes.
A point that I think is exaggerated is 8% or about 80hp loss due to the introduction of E10 fuel. Ethanol has 30% less specific energy than gasoline. With a very simple calculation, you could see that the fuel mixture is losing about 3% of energy compared to last year. Now, why does losing 3% of energy reduces power by 8% (80hp)? In road cars, if you switch from gasoline to E10, your consumption increases by 3 to 5 percent (Or in other words, if you use the same amount of fuel, you lose about 3 to 5 percent of power). So why a formula 1 car should lose 8%? I think it's exaggerated by journalists.
The energy density of ethanol is definitely lower than gasoline. The energy density of ethanol is 27 MJ/kg and gasoline is 47 MJ/kg.etusch wrote: ↑18 Feb 2022, 18:40I wonder what is main speciality of E10 fuel. Is it harder to combust or has lesser energy in it? If it has lesser energy power loss is inevitable but if it is hard to combust compared to previous one maybe they can use higher compression ratios safely and get better torq. Maybe this is why merc developed new turbotimoth wrote: ↑04 Jan 2022, 10:07I don't know man. This again reminds me of 2014. Mercedes going full power while Ferrari going for the compact engine to favor aerodynamics. And we know what was the results. Mercedes did it in 2021 too. Those bulgy plenums don't do good for aerodynamics but gave 20 more hp to Mercedes.
A point that I think is exaggerated is 8% or about 80hp loss due to the introduction of E10 fuel. Ethanol has 30% less specific energy than gasoline. With a very simple calculation, you could see that the fuel mixture is losing about 3% of energy compared to last year. Now, why does losing 3% of energy reduces power by 8% (80hp)? In road cars, if you switch from gasoline to E10, your consumption increases by 3 to 5 percent (Or in other words, if you use the same amount of fuel, you lose about 3 to 5 percent of power). So why a formula 1 car should lose 8%? I think it's exaggerated by journalists.
Yes. There are exhaust rules changes this year. 2021 5.8.2, ''all and only the turbine exit exhaust gases must pass through the turbine tailpipe. All and only the waste gate exhaust gases must pass through waste gate tailpipe/s. and non of the tailpipes may be contained within any of the other tail pipes’’. 2022 5.9.2 ''all turbine exit and all waste gate exhaust fluids must pass through the tail pipe’’.Hoffman900 wrote: ↑18 Feb 2022, 00:39Wastegate has to dump into the exhaust per rules.lio007 wrote: ↑18 Feb 2022, 00:38Any idea or explanation for the additional pipe on top of the exhaust?
https://i.imgur.com/iR0WnpO.png
That's true. It was mentioned by a mercedes engine guy I think in a youtube video. 5% from last year cant be at all compared to 10% this year because of this. I'm sceptical power loss was only 15-20 hp, probably much more than that initially.