Not by changing the boost elbow, air box, or air filter. You add more air with more boost. The turbo pumps in more air making the air moe dense before it is compressed by the piston upstroke or compression stroke. Modifying the intake system will do nothing to improve combustion, reduce black smoke, or improve power.
Now THAT statement is blatantly wrong from both an engineering aspect and a practical application.
NONE of these truck, let me say it again NONE of these trucks, has an optimized ait flow system. They are intenttionally restricted to meet emissions. All modern diesel engines run air lean and fuel rich. Since there is no throttle plate to control it restricting the air flow is the cheapest most effective way to meet the specs.
All the way from the air box, thru the CAC, to the intake elbow they are sized to cut down the air flow to keep the stoich where it is designed.
Boost is nothing but a factor of the restriction in flow. Reduce the restriction and at the SAME boost flow and density increase. Works the same in the filter area. If the turbo is drawing 4 inches of vacuum to make 20 lbs of boost reducing the suction vacuum will increase either the boost or the density of the air at the same boost level.
In other words, more power can be made at less boost when the air density is increased by removing restrictions to flow. hats not engineering, only simple high school physics.
The engine naturally aspirates all the air it needs to make up to about 450 hp as is. The OEM Cummins intake tract is not restrictive and does not reduce air flow. Fuel and boost make power.
None of these engines will make a clean 450 HP with arestricted air flow in the OE intake systems, 12V all the way to the CR's. Once you go above factory ratings a relatively small percentage it shows. The 1st gens are the most restrictive because they literally have the most to gain in the power arena. Its relatively easy to support double the factory rated HP but not with a factory filter. An addition of a better CAC and intake elbow also helps a lot.
That is easy to prove on a dyno once the restirction is contributing to power loss. Start replacing the pieces and the power starts coming up and the smoke reducing. The thing that keeps getting ignored in all these discussions is air density and oxygen content is the key, not boost pressure. Boost is just the cheap way to override the inefficiencies designed into the engine and air delivery systems to meet regs.
Reducing restriction in the air filter, CAC, and manifold will make more power to the point the fuel is completely burned, or stoich is reached. The problem is measuing the difference. The common modes of measurement are usually not sensitive enough to validate the concept so all we have is the math to prove it. The fact that 5000 BTU's is greater than 4000 BTU's is all we need to verify the concept is correct.
Comparing gas engines to diesels is just a fail because the AFR's are not the same to accomplish the same thing. Gasoline needs a stable AFR to function, diesels only need enough fuel to get the job done and that will vary from 15 to 1 all the way to 40 to 1 depending on load.
In essence a diesel engine is a big air pump with fuel added to keep the pumping going.
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