Must be the month for old wives tales to do the rounds again
Sure your not taking the text 'out of context' ?It states they have 'got away from the
IDEA' nor does it say case compression is required for transfer flow to occur. If high case compression doesn't push fuel through the transfer how will
low case compression ever do that? The decending piston increases case compression by a factor of 0.1ie you have 1.3 case comp the decending piston moves it to 1.4, however above the ring we have far greater residual combustion pressure long after the transfer ports have opened. How is it possible for air/fuel that is at best under 5psi pressure overcome pressure that is still well over 100psi? It cannot without the aid of the pipe,as it's not untill BDC does mass bulk flow from the transfers occur( which again proves the decending piston pushing anything at anytime as crock of shit).Bulk flow in the transfers occurs at BDC because the lowest pressure in the engine is in the header pipe, the highest in the inlet tract.
Stuffing cases really only brings the power lower down the rev range it cannot increase output of an engine, the effect is similar to high secondary compression(that increases the output).Works lower down the rpm range as rpm rises the engine struggles to overcome the pumping losses.
Here's a snapshot from a basic widely used and trusted simulator. Shows the transfer duct 1 with the port 1/4 of the way open and air/fuel velocity in that duct to be -100 ft/s
then we have velocity in the same duct at BDC
