If the devil is in the details, then he's certainly lurking around the carburetor on your thumper big-block. Horsepower and torque are all about moving air into an engine, especially on the way to the 500-plus horsepower level. The fact is that any engine, even the lowliest lawn-mower motor, can benefit from improved airflow management.
While we know better, many car crafters consider an air cleaner as more of a nuisance than a power asset. But today, when 400 to 500 hp is relatively easy to achieve, the engine is moving a tremendous amount of air. So we thought it would be a good idea to pay closer attention to the air cleaner design and test a few parts to see if there is power to be gained.
We could have tested with a 400hp small-block, but frankly significant power differentials may have been more difficult to achieve. So instead, we went with a GM Performance Parts 454 H.O. engine equipped with a set of World Products Merlin Jenkins iron heads and a healthy mechanical camshaft (see Engine Specs) with a matching Merlin single-plane intake and a Holley 750-cfm 0-4779 mechanical secondary carburetor. On the baseline test, this Rat proved it was no slouch, delivering a solid 567 hp at 6,200 rpm.
Our test outline was simple. We baselined the engine without an air cleaner, then tested a 14x3-inch air cleaner assembly with a flat base, then went to a Stub Stack without an air cleaner, and then tested one of K&N's Flow Control air cleaner assemblies. The test of the 14x3-inch air cleaner assembly is not in our test results since it made the same power as the baseline (with no air cleaner), which meant that the standard air cleaner assembly did not cost any power.
Overall, our 570hp Rat motor responded with more horsepower on virtually all these different tests. The best combination for this particular big-block engine configuration proved to be a 14x4-inch K&N air filter with a Stub Stack along with an XStream airflow top. This combination of K&N filter parts was worth a solid 14 hp over the "no air cleaner" baseline. It's important to mention that this combination made the best peak power, but comparing the average power between Test 3 and 4 revealed very similar results.
Engine Specs
* GM Performance Parts 454 H.O. short-block
* 10:1 compression ratio
* JE custom standard bore forged pistons
* Crane mechanical flat-tappet cam, 252/262 degrees duration at 0.050, 0.554/0.554-inch lift, 110-degree lobe separation angle, Crane 1.7:1 Gold Race roller rockers
* World Products iron Grumpy Jenkins Merlin heads, 2.300/1.88-inch valves, ARP head bolts, Crane dual valvesprings
* World Products Merlin 4150 style single-plane manifold
* Holley R4779-6 750-cfm mechanical secondary carb
* Hooker 13/4-inch headers, 3-inch exhaust with Flowmaster mufflers
* MSD billet distributor, MSD-7A CD ignition, MSD plug wires
An important point (which K&N offers in its instruction sheet with the Flow Control air cleaner assembly) is that if your engine is tuned to its best lean-power combination, adding the Flow Control or any other well-designed air cleaner assembly will require increased jetting to compensate for the increased airflow and better air quality across the top of the air cleaner. Our test big-block actually recorded slightly rich air-fuel ratio mixtures at peak power with just the bare carburetor. Once we added the Flow Control and other air cleaner assemblies, the additional airflow slightly leaned the air-fuel ratio by roughly a quarter of a ratio. This probably improved the power slightly, although earlier jet changes of more than half a ratio did not improve the power output more than a couple of horsepower.