MrPotatoHead wrote: ↑19 May 2017, 20:55
godlameroso wrote: ↑19 May 2017, 20:48
MrPotatoHead wrote: ↑19 May 2017, 19:27
Pre-Ignition occurs LESS in Direct Injected engines by nature of how they work.
As far as oil causing pre-ignition this would be less of a problem than a Port Injected engine also.
Some of the theories presented here make me scratch my head.
Raise your hand if you have built and tuned a high strung high boost engine because experience in these things tells you a lot more than the Internet does.
Pre-ignition can happen with these engines due to the pre-chamber combustion, and multiple injection events before TDC. The closer you can have full combustion near TDC the more power you make, and you need serious performance from the injectors to achieve this. If you have a misfire and don't burn enough fuel, or enough lingers in the pre-chamber, the next engine cycle can have an overly rich mixture and pre-ignite.
A misfire will mostly result in excess fuel in the exhaust not the cylinder at the end of the exhaust stroke. This will then be seen as overly lean on the oxygen sensor due to the excess oxygen that wasn't consumed. The next cycle will not see much leftover fuel especially on engines of such high compression ratio.
Maybe, then again most engines don't have these pre-chambers, and if they do, they have more than one injector or spark plug. Say fuel goes into the pre-chamber, but doesn't combust for whatever reason, and that some fuel lingers after the exhaust valve opens, when the next engine cycle starts the lingering fuel mixes with another fresh charge, the incredibly rich pre-chamber ignites easily and by consequence the main chamber. The pre-ignition happens before TDC, and instant spun rod bearing/bent rod/melted piston.
