godlameroso wrote: ↑06 Apr 2017, 21:30
In other words they just have to tweak what they have? That some subtle precise changes need to be made? How will they realize the correct changes? Simulation or trashing different heads, or cam grinds? I think it's a bit more complex than simple cam timing (lift and duration more likely) because changing cam advance or retard is a trifle even for us mere mortals.
Yeah, I should have take more time to write the text, of course duration is more important. Lift isn't as important, because the cam is tweaked for maximum airflow so they will probably not play with that too much. Valve opening Profile could be different also, but this is a very restricted area because of the motions.
The tweaks alone are not that big - at least in perspective to the whole PU - but without changing all these elements I think they won't able to get a combination which works out well. The way they could get that "combination" is by using a more extensive PU simulation. It's iumportant for them to achieve a relation between exhaust turbine, the exhaust manifold and the main chamber to get the exhaust pressure values as correctly as possible. When this relation is made right, it's a thing of CFD ressources and try and error (where you can get closer with every simulation by taking the charging motions as a standpoint).
I expect them to already have this relation, which didn't exist before january or so (at least I expect that). When they are close to a good solution they could again reduce the simulation complexity and use existing results as a additional value to get good approximations.
When you talk about subtle, it must be seen in perspective, a timing or duration change can be seen as a little change in perspective to PU complexity. I believe the hardest part will be the redesign of the exhaust because I expect them to have some problems there, because that's the spot where the backpressure get's to the cylinder. They have to rethink pipe layout and most importantly pipe length.
dren wrote: ↑06 Apr 2017, 21:32
Glen, Are you assuming the prechamber is fed with the same chamber charge, or is it fed by a separate nozzle on the injector? If it's two nozzles on one injector, I'd say the combustion instability at very lean mixes in the main chamber wasn't an issue with one cylinder, but it was with 3. Thus, they are having to run richer in the main chamber now, which explains the bad FE. That's my guess
I am assuming that the main chamber get's filled with the complete charge, while leaving a "high fuel ratio cloud" close to the pre-chamber nozzles. This design is complex to achieve because your charging motion needs to work hand in hand with the fuel spraying. However, if you get this right, you profit from the transient flow from rich to lean mixture which further improves burning quality and by that ICE efficiency. Yeah your guess was what I sadi some pages ago
The charge motion is not working out right in some situations and by that, the fuel is not correctly positioned and the charge quality in the pre-chamber get's very bad. So they need to run richer to get a acceptable jet quality. And yes, that would be the reason for the bad efficiency
My approx.: If they get the problems fixed, they will have increased ICE efficiency by at least 5%, if not even more (something like 8-10%).
so they are prone to poor pre-chamber filling.