General setup:
Take spark plugs out, replace with diesel injectors and time diesel injection pump to inject very hot diesel fuel at TDC. Autoignition of hot fuel causes the ignition source.
In my previous post, I've made several conclusions.
1: Piston and cylinder might melt or polish
the oil off the cylinder wall due to diesel injector spray pattern in spark plug hole.
2:Incomplete combustion due to short stroke length and colder uncompressed air than a diesel engine. Which may lead to coking of the piston rings, valves, injector and less fuel economy/emissions.
To solve problem no.1 use a short prechamber screwed into spark plug hole with mounted injector to inject fuel causing ignition which spreads to cylinder without causing thermal damage in cylinder. (will cause thermal loss)
To solve problem no.2 use gasoline port injectors to inject majority of fuel but preheat it for greater atomization
and only maybe you could alter pump timing to inject fuel before TDC to allow combustion pressure to build.
I did learn that the extra torque generated by diesel fuel is not because of extra btu's but because of cylinder compression and fuel injection duration down the power stroke. So, no doubt it will burn but will it burn to the point of no carbon soot or deposits form in the engine?
The "smart plug" spark plug causes ignition to occur in constant speed, constant load engines (think generator) by lowering the activation energy by chemically altering the fuel through heat & a catalyst to cause diesel ignition in a gasoline engine. This removes requirement for high compression.
The "smart plug" drawback is when the engine's speed and load changes, timing is not consistent. So if you have mechanical pump ignition timing, why wouldn't this work?
Propane aspirated conversion kits for diesel engines use the same ignition system but the high compression is used as the main energy source.