comdiver
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Here's a question for the engineers out there. Does anyone know what the exhaust flow for the LDT 465 1 D is? It would be a CFM rating. The flow through the air filter should be the same, I think.
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Don't know if your idea is sound or not, but your math is wrong. The LDx 465 engine is 478 cubic inches, but it is a four stroke cycle, so you only exhaust each cylinder every other revolution. Therefore it should be (478 cu in/2 rev x 2600 rev/min)/1728 cu in/cu ft = 359.6 CFM (theoretical). I say theoretical because of various pumping and friction losses you will never completely fill the cylinder with air. Even with a turbo running at typical Deuce pressures, the intake valves are too small and are not open long enough to get a full cylinder fill, and the fill ratio gets worse at higher rpms. That, and you are drawing all that air though an air filter element which is rated at 390 cfm.comdiver said:Your right, muffler "system". I have talked with an engineer that knows engines and mufflers and is willing to make some educated suggestions, but he needs the cfm first. So I thought OK, 465cu in/ revolution x 2600rpm convert that to cu ft and I'm there at 100%. 700cfm Well I forgot the boost if it was 14.7 (easy number) we would now cram twice as much in there, 1400cfm.
As I recall, all Detroit two strokes were supercharged and most were turbo'd, so they probably had a VE well above 100% which would explain the high air flow, but even then 1500 CFM sounds a bit high.comdiver said:I asked if he could find the specs. for an 6-71. I know it is a 2 stroke, it is the first one that came to mind. Anyway, 270hp@2100- 1500cfm. 6x71x2100/1728=517.7. I don't really know what that means, but...... I'm not sure what the boost on the 6-71 is but I think this may be part of the answer. Thank you all for the brainstorm education. I think we are getting close.
Well voltage is more important to a spark plug. Amps rule when stick welding (both are arcs).When someone says that torque is more important it is equivalent to saying amps (or volts) is more important.
Lee,However, if you note, the graph assumes a VE of 85% for a turbo engine, so 85% for a NA engine is pretty high.
I agree you can't have too much horsepower OR torque. But the multifuel is not designed to be particularly efficient. Small, compact squared-off intake and exhaust manifolds, small internal passages, all 90 degree bends, unequal length passages, all of which contribute to inefficiency. Not at all like a hot rodded engine with a multi plane intake manifold with individual large, polished equal length passages and exhaust manifolds with large diameter, rounded, equal length collector tubes. The biggest detriment to good airflow (and correspondingly high VE) are small diameter, rough air/exhaust passages and sharp bends which pretty much defines the multifuel intake and exhaust. So I wouldn't expect high VE numbers for a multifuel unless you crank in a whole lot of boost.jimk said:Lee,However, if you note, the graph assumes a VE of 85% for a turbo engine, so 85% for a NA engine is pretty high.
I'd guess they needed (graph) a single value and used some average. VE does vary a lot(w/ RPM,between engines,w/compressor efficiency...).When I look to exceed 100% that is compared to NA (my LD465), quite easy to do with any supercharger(and a few wild NA cams).When I think NA I use my hot rodding idea where 90 is considered low.I don't know much about he LD eff. After you note about valve size I guess a pocket port job is due next time I have my head off.I'm sure we can all agree that you can't have to much HORSEPOWER.JimK
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