Nerd Alert!!!! Caution: Math & BS!!!!
The boost loss is not due to the BOV, it is intercooler efficiency and turbo efficiency. When I hit 10psi it holds till about 5000 and slowly starts to decline to 7-8 at redline. This could also be the factory wastegate being inefficient.
Braden: This sounds like turbo efficiency. 10psi up to 5000 and then slow decline tells me that the turbo ran out of capacity as the revs topped 5000. Takes 20% more air as the revs go up 1000 from 5000 to 6000. Of course, the turbo is supposed to spin faster as more exhaust gases are output at the higher revs.
Hmmm, maybe it's not flowing enough intake air to keep the turbo well supplied? Gee, even with the Injen intake? Anyone do any air pressure measurements at the turbo intake? If the inlet feed pressure dropped off, then we'd know it was the problem.
Anyone know how to do an air consumption calculation for a four cylinder four stroke? Let's see, two cylinders fire every rpm; total displacement is two liters, so that's one liter per rev (assume no boost; I'll add that in later). 5000 rpm is 5000 liters at normal atmospheric pressure. If boost is 7psi, that's actually 7psi over atmospheric, which is about 15psi. So that's another 50% air flow to achieve that. OK, 7500 liters/minute is how many cubic feet per minute? (Conversion factor nerding left out...) 7500 liters/min divided by 28.85 liters/cu ft = 260 cfm.
This actually sounds reasonable! Thinking back on old carbs, a big Holley would flow 750 cfm for a 6 liter engine normally aspirated.
So, 260 cfm through a 3 inch pipe, yeah, you might be starving the turbo for inlet air! Lots would depend on the air flow resistance of the cone filter.
SNAPS AWAKE AGAIN...
Sorry about that. Err, got any dyno charts of 10 psi and the Injen intake?? THAT would be interesting...
