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While the technical regulations regarding the power units are going into their 4th stable year, Mercedes' engine Chief, Andy Cowell, has noted there are still gains to be made. Cowell underlined that the key to these continued improvements are Mercedes' proven testing facility.
Combustion efficiency?Cold Fussion wrote:I don't know anything about that source but it seems to me that the author has taken the idea that Mercedes (the actual mercedes) have been doing HCCI research for a decade and taken the idea that HCCI is efficient and suspected vibration issues and decided that Mercedes HPE are using HCCI in their F1 engines. What is the actual evidence/source that Mercedes HPE are using HCCI? Furthermore, does it even make sense to have HCCI combustion in an F1 engine?
Spot on. HCCI benefits two of the key metrics for efficiency:Brian Coat wrote:I think that the potential gains from full load HCCI/CAI might stem from the potential (?) ability to run a higher cycle pressure ratio but avoid/mitigate the conventional fuel/knock limitations associated with high pre-combustion pressures and temperatures?
But what is this talk about a single knock being able to basically blow the engine to smithereens?PlatinumZealot wrote:Mercedes still have a whole lotta knock according to the engineers... In fact all the engines do. Not sure if this means the engines are almost dieseling or not...
Detonation is an inefficient process. The shock wave causes increased heat loss to the walls and of course thermal and mechanical damage in extreme cases. Some detonation can be tolerated in a trade-off with efficiency/power gains from increased CR, boost, leanness etc.Tommy Cookers wrote:there's nothing wrong with some detonation of the end gas (except in a showroom demo drive etc)
eg WW2 and the Le Mans 24 hr etc were won with detonation in the end gas
it's showing that the engine is a compromise and non-ideal to 21st century eyes
but to the extent that the engine can survive the diluted and earlier detonation that is called CI or HCCI .....
eg HCCI allows the use of a greater CR and expansion (than would SI) and this improves efficiency
PlatinumZealot wrote:Mercedes still have a whole lotta knock according to the engineers... In fact all the engines do. Not sure if this means the engines are almost dieseling or not...
i doubt they could get hcci to operate in such volatile circumstances with the combustion and boost temperature of a formula one engine. hcci is one technology that might make it to normal engines first before race because it has a sensitive operating load area. they could not get it to work when load is too low and becomes very unpredictable when load is high. hcci is natural combustion, treating the air fuel mix before it detonates by its self, unlike diesel. By doing this, burning would not be a problem as every mixed element would get ignited by temperature rather than spark or an injector, avoiding requirement of a little spot to start the process. localized? a rather stable environment or predictable environment is required, probably not in a formula one engine although I think it has a rather desirable manifold pressure to bmep returnCold Fussion wrote:I don't know anything about that source but it seems to me that the author has taken the idea that Mercedes (the actual mercedes) have been doing HCCI research for a decade and taken the idea that HCCI is efficient and suspected vibration issues and decided that Mercedes HPE are using HCCI in their F1 engines. What is the actual evidence/source that Mercedes HPE are using HCCI? Furthermore, does it even make sense to have HCCI combustion in an F1 engine?