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Honda F1 project leader Yusuke Hasegawa has outlined a number of reasons why Honda has been struggling so badly in the beginning of the 2017 Formula One season. He confirmed that lots of problems were not discovered while running on the dynamo meter.
I didn’t say after, just that it’s timed so they pair. You couldn’t do that without measuring cylinder pressure.
Do these pressure sensors provide measurements per stroke or as an average? i.e. at what rate do they provide measurements? Does it essentially become an average across multiple strokes, or can they tune spark timing and injector pulses in real time based on sensor data mid stroke? Are they reading at the relatively low compression pressures or at combustion pressures only?Hoffman900 wrote: ↑23 Mar 2023, 16:40I didn’t say after, just that it’s timed so they pair. You couldn’t do that without measuring cylinder pressure.
In-situ pressure sensors read at minimum every crank degree. They are very common in engine R&D and have been for 30 years. Most professional series engine builders (NASCAR, factory IMSA builders, Cosworth, etc) use them on dynos to map ignition timing in addition to lots of other development work. You also use them to calibrate your simulation models (heat release, pumping losses, cycle-cycle variation, etc).vorticism wrote: ↑23 Mar 2023, 17:12Do these pressure sensors provide measurements per stroke or as an average? i.e. at what rate do they provide measurements? Does it essentially become an average across multiple strokes, or can they tune spark timing and injector pulses in real time based on sensor data mid stroke? Are they reading at the relatively low compression pressures or at combustion pressures only?Hoffman900 wrote: ↑23 Mar 2023, 16:40I didn’t say after, just that it’s timed so they pair. You couldn’t do that without measuring cylinder pressure.
Sidenote: why would the periphery light off first?
An omega piston bowl may be less about the actual shape and more a reference about the distribution that it creates. They cite both.vorticism wrote: ↑23 Mar 2023, 17:55+1 Thanks, Hoff. I wouldn't be surprised if they need to be replaced often. Accuracy fall off could destroy the engine.
fwiw I understand the omega shape (omega bowl, at least) to be a reference to the crown shape which looks like four omega forms in top view. As for an omega/horseshoe fuel distribution, unless a result of injector shaping, might be due to compression forcing the fuel mix toward the periphery away from the center due to heat and inertia effects. Maybe that's common in these schema.
Maybe send a letter to Pat Symonds. It’s an open secret. Honda has showed a video and has shared it in a Japanese publication, Pat Symonds says it’s happening and had a slide on it, Merc has hinted at it for a few years, Ferrari calls it “super fast” in reference to their combustion events.saviour stivala wrote: ↑24 Mar 2023, 03:33If as claimed on here compression induced ignition at the periphery of the piston is happening, it happens after the primary spark plug induced compression ignition. There is no other way to be within the rules. But the question is, How can a compression induced ignition at the periphery of the piston be controlled (controlled combustion), with the flame-front of the primary spark-plug induced combustion racing towards the said periphery of the piston. This assertion that two types of combustion at the same time are taking place and are controlled, begs the question of how two types of combustion provided they can be controlled, can be/happen faster than a single combustion. HCCI is claimed to be spark assisted, but the design also is said to require other assisting's by things not allowed by F1 rules. So HCCI is not in it's current form compatible with F1 rules.
I did not say that compression induced ignition is not happening, but because of my doubt I asked questions. I went back to the Pat Symonds ''The road to 50% efficiency'' and confirmed again that he did not say that it (compression induced ignition) is happening. What he said was that running with high compression ratio allows us to:- ''increase in-cylinder pressure and temperatures''. ''improve the fuel conversion efficiency''. ''EXPLORE new types of combustion, different from conventional pre-mixed''. ''mix of homogeneous, stratified, diffusion flame, HCCI, Spark assisted HCCI combustion''. As to Honda, Mercedes and FERRARI I have yet to come upon an official admittance that they are using compression induced ignition.Hoffman900 wrote: ↑24 Mar 2023, 14:09Maybe send a letter to Pat Symonds. It’s an open secret. Honda has showed a video and has shared it in a Japanese publication, Pat Symonds says it’s happening and had a slide on it, Merc has hinted at it for a few years, Ferrari calls it “super fast” in reference to their combustion events.saviour stivala wrote: ↑24 Mar 2023, 03:33If as claimed on here compression induced ignition at the periphery of the piston is happening, it happens after the primary spark plug induced compression ignition. There is no other way to be within the rules. But the question is, How can a compression induced ignition at the periphery of the piston be controlled (controlled combustion), with the flame-front of the primary spark-plug induced combustion racing towards the said periphery of the piston. This assertion that two types of combustion at the same time are taking place and are controlled, begs the question of how two types of combustion provided they can be controlled, can be/happen faster than a single combustion. HCCI is claimed to be spark assisted, but the design also is said to require other assisting's by things not allowed by F1 rules. So HCCI is not in it's current form compatible with F1 rules.
If you were, would you want to admit to it?saviour stivala wrote: ↑24 Mar 2023, 17:12As to Honda, Mercedes and FERRARI I have yet to come upon an official admittance that they are using compression induced ignition.
Who would not?. Up to now I know of no official confirmation by any of the four manufacturers, and from the (Pat Symonds - "the way to 50% efficiency" pushing aside 'assumptions' - a thing that is accepted as or as certain to happen, without proof. All I got was that he was exploring some of the techniques that have been employed on current F1 hybrid power units to reach 50% thermal efficiency, AS WELL as considering how such an engine could develop in the future. Assuming things beyond what he said is at least to me overtaking him. And also, a lot have been pushed out on here about ''in-cylinder' sensors. As to controllable combustion Symonds said - ''controllable combustion is achieved using an advanced ignition system''. - ''high risk of misfire when trying to ignite a mixture at ^=1.4 with a conventional spark-plug ignition system''. - ''this led to the introduction of a passive pre-chamber - a spark plug surrounded by a perforated cap''. So my final take - a spark induced compression ignition is still being used as per the rules up to now.AR3-GP wrote: ↑25 Mar 2023, 04:42If you were, would you want to admit to it?saviour stivala wrote: ↑24 Mar 2023, 17:12As to Honda, Mercedes and FERRARI I have yet to come upon an official admittance that they are using compression induced ignition.
You are supposed to have a spark ignition system. Why would you admit to compression ignition?saviour stivala wrote: ↑25 Mar 2023, 07:17Who would not?.AR3-GP wrote: ↑25 Mar 2023, 04:42If you were, would you want to admit to it?saviour stivala wrote: ↑24 Mar 2023, 17:12As to Honda, Mercedes and FERRARI I have yet to come upon an official admittance that they are using compression induced ignition.
They might infer something from schematics and sensor readings f.e. comparing pressure sensor readings to spark timing. Regardless, can these ignition systems alter their voltage/amperage in real time? f.e. weak spark corresponding with CI, then full spark to initiate TJI; all just to provide a rules satisfying spark at the moment of CI.5.12.1 Ignition is only permitted by means of a single ignition coil and single spark plug per cylinder.
No more than five sparks per cylinder per engine cycle are permitted.
Yes righto. "You are supposed to have a spark ignition system" as per the rules. And that is why I stated that 'if' compression induced combustion is being used, it is happening after the start of the by the rules spark induced compression combustion. which will push the situation into "two types of compression combustions are being used at the same time". But apart from all this, back to your question, - If any of the four engine manufacturers happen to officially admit to using compression induced combustion, WHO WOULD DARE SAY IT'S NOT THROUGH. On a different note, although I was convinced of what I was saying all along, and not amused with high ended technical push-outs of magical sounded omega bowls/sensors/dyno running and what not, I didn't expect that from you (You are supposed to have a spark ignition system. why would you admit to compression ignition?) I expected you to come out and prove a manufacturer admittance to the use of compression ignition.