"Another positive aspect is being able to run at slow plane (better nmpg) with less possibility of wet stacking issues, because the engines will be turning higher rpms."
Slower speeds often mean better fuel economy, but as written:Very unlikely...virtually impossible.
Combustion temperatures relate to HP developed, not RPM...Putting in smaller injectors and smaller props simply means you have to run at high RPM than previously to develop a given HP.
"slower plane" takes a certain HP and certain heat accompanies that....using smaller injectors and props won't change that much if at all...efficiency might drop (see below).
" Also, with the higher rpm at hull speeds, I would imagine the inherent inefficiencies of the detroit 2 strokes at low rpm would be improved to some extent."
Don't know what this means; have never heard of it. If you check DD two cycle prop load versus HP developed, via DD factory graphs, you'll find a nearly linear (flat) "curve",,, that is, almost a straight line....You'd have to explain why the curve is wrong and your perception correct. In other words, developing 800 HP takes about twice the fuel as does developing 400 HP.
Anyone with DD data can check my observations: Compare the fuel consumption of the 1,000 HP 16V92's against the 1400 HP 16V92's when, for example, each develops 800 HP... Fuel consumption should be virtually identical assuming both engines are turbo charged...
In fact, the logic proposed by detuning seems contrary to Brian Degulis posted real world test result on his 650HP 12V71TI's in which he INCREASED prop size to reduce cruise RPM....Brian's logic and test results make sense because prop efficiency can be increased with larger props, improving overall fuel economy:
"Props For Efiency And Engine Life When Running Big Engines Slow ecrease RPM..." (April 2006)
C:\Documents and Settings\Owner\My Documents\BOAT STUFF\Larger Props For Efiency And Engine Life When Running Big Engines Slow - Hatteras Owners Forum & Gallery.mht
