supercharger guru question

Discussion in 'PSI Superchargers Tech Questions' started by TAM505, Oct 3, 2013.

  1. TAM505

    TAM505 New Member

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    new rules for our division at local track std helix limited to 6-71 at 18 over or 8-71 at 10 over which one would be more effective and reasons as to why and at these low overdrives what manufacturer is better and why?
     
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  2. Andy C

    Andy C Member

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    6x71

    6x71 will move more air...
    pump up the eng comp...
     
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  3. MoparMartian

    MoparMartian Member

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    ... and the Engine RPM / Supercharger Rotor Speed....
     
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  4. Patrick Hale

    Patrick Hale Member

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    Take a look at the left side of this image for all the common blower sizes. The values are stated in cubic inches per revolution of the blower.

    http://www.dragracingpro.com/images/works1_i3pu.bmp

    So here's the math:

    6-71 = 435 cid per blower rev times 1.18 = 513.3 cid per engine rev

    8-71 = 461 cid per blower rev times 1.10 = 507.1 cid per engine rev

    So all else being equal, the 6-71 choice is a little better.

    What max engine RPM are you going to run?
     
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  5. TAM505

    TAM505 New Member

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    we would be running 7500 to 8500 rpms thanks for the help and info.
     
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  6. Patrick Hale

    Patrick Hale Member

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    OK - now it get's more complicated. The standard helix roots blower volumetric efficiency (VE%) starts to fall off above 9000 blower RPM. VE% seems to fall about 2% per 1000 blower RPM increase.

    6-71 math @ 18 over:
    7500 engine RPM times 1.18 = 8,850 blower RPM
    8500 engine RPM times 1.18 = 10,030 blower RPM

    8-71 math @ 10 over:
    7500 engine RPM times 1.10 = 8,250 blower RPM
    8500 engine RPM times 1.10 = 9,350 blower RPM

    So the 6-71 combination is going to be above 9000 blower RPM most of the time. And the 8-71 combo will be below 9000 blower RPM most of the time.

    In my previous post I gave a 1.2% flow advantage to the 6-71 combo (513.3 vs 507.1). But spinning at 10,030 blower RPM that advantage would be all but wiped out. It would depend on how quickly the fall-off in VE% is for your specific blower, and exactly how much time you spend above 9000 blower RPM during the run. A simple spreadsheet could be used for these calculations based on some RacePak data.

    Bottom Line: the rules makers got it about right. Both combos should be very close.
     
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  7. SoDak

    SoDak Active Member

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    What about HP to turn the blower? Or is that "buried" in the VE somewhere? What is all in the calculations to get a VE?
     
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  8. Patrick Hale

    Patrick Hale Member

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    Only way to get the VE% is from a blower dyno. You have to measure airflow CFM vs. blower RPM. There's lots of this kind of data around for the "big show" standard helix 14-71 blower's. The blower dyno can also measure the HP required vs. blower RPM.

    For this comparison it appears that both combinations will move the same amount of air into the manifold/cylinders. Therefore the HP required will be about the same as well since the "thermal efficiency" of the 6-71 should be the same as the 8-71.

    It would all come down to all the design details of one manufacturer vs another for both the VE% and the "thermal efficiency".
     
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