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Thread: Clinder head flow, does it matter..(LONG)

  1. #1
    HEAVYBOAT
    Some of you have probably read this before from Reher-Morrison.. but for those who havent, check this out... One persons perspective on cylinder heads.
    Our era is often referred to as the Information Age, but not all of the available information is necessarily useful. I am beginning to think that flow benches should be labeled with a government warning: "Caution! Excessive reliance on flow numbers may be harmful to your engine!"
    I'm kidding, of course. Used wisely, a flow bench can be a useful tool in engine development, just like a timing light or a dynamometer. Unfortunately, some racers believe that a flow bench is the ultimate answer machine. When the subject is cylinder heads, the four words I dread to hear are, "What do they flow?" Novice racers and magazine writers share a fixation about airflow. The mistaken belief that "more is better" is often the false assumption that produces an underperforming engine.
    I learned this lesson myself when my partners Buddy Morrison and Lee Shepherd built our first flow bench in the mid-'70s. It was a great contraption that could just about suck the windows out of our rented shop on Arkansas Lane. While this homebuilt test bench boosted our racing program, it certainly didn't make us engine experts overnight - even though we initially thought we had found the key to the vault of knowledge.
    We had been racing 287-cubic-inch small-blocks in various Modified and Comp classes before we decided to make the move to Pro Stock with a 331ci engine. (Students of Pro Stock history will recall that the '70s was the era of weight breaks for various engine and chassis combinations.) We were determined to be "scientific" in our approach, and reasoned that a 15 percent increase in engine displacement demanded a 15 percent increase in airflow. We dutifully enlarged the ports, increased the valve diameters, and hit our airflow targets. We set off to conquer the world of Pro Stock - but our pride and joy was a dog.
    After struggling to even qualify in our initial outings, we pulled an old pair of Modified heads off the shelf. Lee worked on the ports for an afternoon, we bolted them on our Pro Stock short-block, and we qualified fifth at Englishtown in our next race.
    If you went strictly by the flow numbers, those heads would hardly enough air to satisfy a respectable big-inch bracket racing engine - and yet they were magic on the race track. That was when I realized that cfm isn't everything. It's a lesson that I have seen repeated countless times in the last 25 years.
    A flow bench measures air movement in a very rudimentary way - steady-state flow at a constant depression (vacuum). Obviously the conditions that exist inside a running engine are quite different. The flow bench can't simulate the effects of the pistons going up and down, the reversion pulses as the valves open and close, the sonic waves that resonate inside the runners, the inertia of the fuel droplets, and all of the other phenomena that influence engine performance in the real world. When you flow test a cylinder head, you are simply measuring how far you can move the liquid in a manometer.
    The bigger you make a port, the more it flows. That's hardly shocking news. Bolt a sewer pipe onto a flow bench and it will generate terrific flow numbers. So should we use ports as big as sewer pipes on our race cars? The flow bench says we should - the time slip says something completely different.
    If airflow were everything, we would all use the longest duration camshafts we could find - after all, more duration means more flow. In fact we know that there is a finite limit to how long the valves can be open before performance suffers. That is because the valve events have to be in harmony with the rest of the engine.
    The same principle applies to cylinder heads. Simple airflow capacity should never be the first consideration in evaluating cylinder heads. Characteristics that are far more important include air speed, port cross section, port volume and shape, and the relationship between the size of the throat and the valve seat. If these attributes are wrong, you can work forever on the flow bench and not overcome the fundamental flaws.
    Here is a do-it-yourself example: Turn on a garden hose and the water will dribble out a couple of feet. Now put a nozzle on the hose and the water will spray across your backyard. The water pressure and volume haven't changed, but the velocity has increased dramatically. Now think about the air and fuel going into your engine's cylinders. Which would you prefer: slow and lazy or fast and responsive?
    An engineer will tell you that an engine requires a prescribed amount of air and fuel to produce "X" horsepower. In a perfect world, that may be true - but we race with imperfect engines. The shape and cross-sectional area of the runners are absolutely critical to performance. For example, I have two sets of Pro Stock cylinder heads that produce nearly identical flow numbers, yet one pair produces nearly 150 more horsepower at 9,200 rpm than the other. The flow bench can't tell the difference between them, but the engine certainly can.
    There are software programs that claim to be able to predict an engine's performance based on airflow numbers. Unfortunately, a critical shortcoming of many of these programs is that they are based on inaccurate information or false assumptions. A computer is an excellent calculator, but it is not an experienced engine builder. The software doesn't know whether a port's short-turn radius is shaped properly, whether the flow is turbulent at critical valve lifts, or whether the flame speed is fast enough. Racers have a tendency to believe that computers are infallible, so they accept the software's solutions as gospel, when in fact they may be badly flawed.
    Textbooks would lead you to believe that an exhaust to intake flow ratio of 80 percent is ideal - yet a typical Pro Stock head has exhaust ports that flow less than 60 percent of the intake runners. You can improve the exhaust flow tremendously with about 40 minutes of work with a hand grinder - but the supposed improvements will just about kill the engine's on-track performance. I know because I've been there.
    We have also learned that low-lift flow (meaning anything below .400-inch valve lift in a Pro Stock engine with a .900-inch lift camshaft) is relatively unimportant. Think about the valve events in a racing engine: From the point when the valve first moves off its seat until it reaches mid-lift, the piston is either going the wrong way (that is, it is rising in the cylinder) or it's parked near TDC. The piston doesn't begin to move away from the combustion chamber with enough velocity to lower the pressure in the cylinder until the valve is nearly halfway open. Consequently it is high-lift flow that really matters in a drag racing engine.
    The shape of the combustion chamber also has a significant impact on performance. A conventional chamber with deep reliefs around the valve seats and a relatively flat valve seat angle can produce terrific flow at .200 to .300-inch valve lift. Today a state-of-the-art chamber typically has 55-degree valve seats and steep walls that guide the air/fuel mixture into the cylinder to enhance high-lift flow.
    This doesn't mean that every racer needs state-of-the-art Pro Stock cylinder heads - along with the high maintenance they require. The heads have to match the application. Conventional combustion chambers and 45-degree valve seats are just fine for a dependable, low-maintenance racing engine that will run a full season between overhauls.
    The classic Hemi combustion chamber is capable of producing impressive flow figures, but it's not going to make impressive power. Engine technology in all forms of motorsports is converging around smaller, high-efficiency combustion chamber designs. You can see the result in lower brake specific fuel consumption (BSFC) numbers, which indicate improved engine efficiency. Twenty years ago, a racing engine with a .48 BSFC was considered very good; today's competition engines produce BSFC numbers in the neighborhood of .35. This means that a given quantity of fuel is being atomized and burned more effectively to produce more power. A cylinder head's combustion efficiency can't be measured on a flow bench, yet it has a huge impact on performance.
    I am not against flow benches; in fact, we use computerized flow benches daily at Reher-Morrison Racing Engines. What I am against is over reliance on flow numbers as the primary measurement of a cylinder head's performance. A flow bench is a valuable tool that can help a racer fine tune a combination - but it is not the ultimate authority.
    phew, and I had to type all that out for you guys :wink: And sorry I guess links work too, but I was hoping to trap a couple people into reading it.

  2. #2
    Hotcrusader76
    There is a fella by the name of Darin over @ Reher Morison....he's in charge of cylinder heads and the induction system...His brother does the bottom-ends.
    Him and Joe Mondello have perfected the new wetflow bench which is now in production from Superflow and is offered as an attachment to SF current dry flow benches.
    Reher Morison and DART cylinder heads both have this one of kind bench that actually uses a dye that is seen under a black light. It allows them to see the movement of the vortices from the spark plug back over near the exhaust valve and slews of other new discovered information.
    They then photograph the results and then study them very closely at large resolution. Incrediable amounts of information was gathered from just the change of a tulip ex.valve to a flat-head style.
    If I was betting on an engine builder who may take this research to the bank it would be RM.
    If anyone wants I can send them the results of their finds based on this research. According to Darin he's only scratched the surface of what this equipment is allowing them to see with new cylinder head designs.

  3. #3
    LakesOnly
    Bottom-Line tool:
    Stopwatch.
    LO

  4. #4
    HEAVYBOAT
    Originally posted by LakesOnly
    Bottom-Line tool:
    Stopwatch.
    LO
    Lakesonly,
    True, that is the bottom line, but.....
    what do we do when someone asks you what cylinder head they should use? Do we just tell him to buy 5 random sets of heads and use his stopwatch to pick the best one?
    There still needs to be some guidelines, I just think when it comes down to the crunch, when your trying to get "everything" out of a combo.. theres more then meets the eye.

  5. #5
    Fiat48
    My solution to that would be to take a sack full of money (and make that a large sack) and go see Larry Olsen at Engine Prototype development and have him build a set of heads for the application. With all the pro stock racers he works with and all the feedback he gets from head modifications plus being a personal friend of Warren Johnson for decades he knows the technology.
    Cylinder heads and intake manifold technology is what Pro Stock racing is all about.
    http://www.epdracing.com/eb1.htm
    Or do what I do. take a good basic cylinder head like a Brodix or Dart, pocket port the things and make the difference in flow up with a blower and alcohol.

  6. #6
    Infomaniac
    LOL Fiat, that is what I was thinking exactly.
    Most of the time I do not even spend the extra coin on the CNC stuff when the blower is shoving it in.

  7. #7
    Fiat48
    Info, when I was Pro Gas racing in the 80's you couldn't get a set of heads that were state of the art and competitive for less than $6K. And half way through the season they would be obsolete.
    Blower setup has to be one of the best bang for buck and return on investment in performance. Now I can actually wear a head out.

  8. #8
    78Eliminator
    Funny, I was just on the phone with a Brodix engineer the other day. They have their heads all listed with their flow numbers and recommended CIs all in a graph. I immediately looked at the heads with the biggest numbers (more is better, right?). I told the guy that I was building a motor that was going to be NA and 454 CI. He made his recommendation. I then asked him if these same heads would be ok for a 509, which is going to be my next project. He said they would be just as good as the higher flowing heads, which were RECOMMENDED for a 509. He then stated that most guys building blown alky motors do not throw on the biggest, fattest head, but they used the exact ones that I was buying for an unblown 454. So according to the charts made by the engineers at Brodix, people are intentionally under sizing their heads. I was left a bit confused.
    Well, here is the deal. I bought the BB2 Plus with an 312 cc intake runner. I would LOVE to meet someone with the BB2 Xtras (365cc) with the same valve setup as mine. I would like to do a few runs down the track with the Pluses and then with the Extras in the same day and see what happens. I mean NOTHING changes but the heads.... Anyone game?

  9. #9
    Senior Member
    Join Date
    Mar 2010
    Posts
    883
    You'll slow down with the 365's. And as for the wet flow bench, John Dickey and John Reed had one in the 70's when they were doing carbs for the Nascar boys.
    Chris

  10. #10
    HEAVYBOAT
    Can you explain why you think he would slow down with the 365's? Do you think his CI is too small for that size of runner?
    Thanks

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