SO, where do all those radical claimed power improvements with the ducted intake systems come from? If it isn't actual cooler air, well, damn, it must be that vast amount of pressurized air from the cowl area, right?
We'll see!
It's rather easy to install a water-column sensor down in the cowl area where the air intake mods usually drill that access hole, and get the ACTUAL down the road pressure buildup - and then we'll see how much pressure there REALLY is down there to "pressurize" the engine intake tract...
So, all you critics get your objections and preconceived notions ready, and line up for the NEXT round!
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Gary, a few years back I had performed the above prescribed tests using two MAP (Manifold Absolute Pressure) sensors and a simple volt meter with correlating readings charts and conversion charts from Pascal to PSI.
The first (#1 sensor) was installed in the cowl area where the air is drawn from for the cowl type system. The second was mounted in the intake tract ahead of the filter (dirty side). As I did, you should also find that you'll consistently see, at all road speeds nearly zero pressure readings in the cowl area (a few spikes of pressure (. 5) but nothing sustained). Additionally, under light boost levels (6PSI and above) a slight negative pressure (vacuum) from this sensor (about those of the small pressure spikes (. 5-3/4 but a bit more measurable during a boost condition). This will also be supported by actual vacuum levels measured by the #2 sensor in the dirty side of the intake tract (this reading will be consistently about 4PSI lower than a boost gauge installed in the intake manifold and level off just before boost starts to level out (drop)).
These tests were performed first with the HVAC system in the off position, next in vent mode and third in recirculation mode on the A/C cycle.
Using a cowl induction system (CIS)* that utilized only the 4. 5” cowl hole, I theorized that the HVAC system with its series of vacuum operated doors do not allow for a good enough seal to actually hold pressure in the cowl area also the seal around the cowl and CIS area is not enough to hold back pressure.
Secondly, with a CIS that uses both a cowl hole and factory fender hole you cannot sustain pressure due to the obvious factory hole leaking it by. So basically, with either system the air flow to this area was pushed out of the area through numerous leaks including those not related to the HVAC system. Fresh air? YES, Ram air: NO! Louder turbo whine: YOU BET YA! More than my family could tolerate during extended towing.
*Note: Not claimed to be a benefit of the either type system, just an observation that pressure is not detected or sustained with either system in place.
Ram air? Id rather call it Cold Air Induction. The trouble with 'ram-air' systems is that often they aren't. Ram-air, that is. By the time you collect enough air and shove it into the airbox, negative pressures lurking around corners in the intake duct and at its entrance have probably assassinated the pressure gained by the forward movement. Plus, how d'you know that the place you're trying to pick air up from is under positive pressure anyway? With proper CAI siting on our trucks you can easily equal out the intake tube and filter restrictions of the intake system under a no boost condition and that would certainly help, but i still wouldnt call it 'Ram air!'. I don’t have data for our 5” tube or the BHAF or K&N type filters but would speculate the siting would need to be just about dead center on the trucks grill at the bumber line area similar to DF's location.
The true benefit of cold air intakes (CAI) or cowl air induction is to eliminate the draw of under hood air at take off and provide plentiful clean cold air during operation however the effects on under hood air temps at speeds greater than that of a regualar surface street (35MPH) are nearly identical to those you’ve reported already. IMO void and null, when compared to the trade-offs (louder turbo whine or risk of water ingestion) There’s radiant road heat to think about here on take offs too.
but we have forced induction and aftercoolers. do you really think its a DMDPC (Dwyer Magnehelic Differential Pressure Gauge) measurable difference? or better yet, the ol' S. O. P. meter detectable faster spool up? like i said void to null IMO.
As with any non-factory intake system utilizing a larger filtering surface element you will see reduced EGT’s and freer air flow to the engine resulting in better performance be it cooler EGT or better MPG's or both.
Conclusion: Aftermarket air filters that provide a greater filtering surface to that of the factory element will result in better performance and reduced EGT’s. So pick your poison fella’s. Me? I have twins and a nice K&N stuffed under the hood drawing in nice hot air and spitting out piston melting performance.
come and get you some, is all i can offer! loaded or not.
For Diesel Freak’s idea: Its REALLY nice, wouldn’t work for a twin setup but NICE! Also not something I’d want mounted up if following a Semi tractor or two in a heavy rainfall with 10K behind me and sucking enough air to sustain 18-20PSI of boost! so maybe we should think about a vacuum solenoid to shut off the front intake in adverse conditions. Just a thought – DF?
Attention: TDR Forum Junkies 
dknoch's signature lists a AFE filter but not the PSM intake mod. Tell us dknoch. was that big temp drop due to just the cowl intake addition or did you add the AFE drop in filter at the same time?
