Dynamic compression ratio

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m (thanks for the thoughts)
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Just for grins, I calculated different static compression ratios with a 3.48" stroke and different camshaft intake closing points @ 0.050" tappet lift on Keith Black's dynamic compression ratio calculator. The calculator went did work poperly  on 8.00-1, so we'll start at 8.25 SCR. I kept the DCR at just over 8.0, a figure that is well accepted for operation of the motor on pump gas with a little cushion...
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The following are different static compression ratios (SCR) with a 3.48" stroke and different camshaft intake closing points @ 0.050" tappet lift on Keith Black's dynamic compression ratio calculator. The calculator, starting at 8.25:1 SCR. The dynamic compression ratio (DCR) has been kept at just over 8.0:1, a figure that is acceptable for use with today's pump gas with a little cushion:
  
 
*Static CR....Intake closing point @ 0.050"....Dynamic CR.
 
*Static CR....Intake closing point @ 0.050"....Dynamic CR.
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*12.00.......68............8.017........................................................................................................
 
*12.00.......68............8.017........................................................................................................
  
Now, it's unclear where these Keith Black DCR calculator dynamic cr readings are taken, at cranking rpm's or at max efficiency rpm's. But I can tell you this from playing with the DynoSim, max cylinder pressures are made at or near the torque peak. So, the fact that a motor is not detonating at low rpm's does not mean that it will not detonate at or close to the torque peak.
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Now, it's unclear where these Keith Black DCR calculator dynamic compression ratio readings are taken; at cranking rpm or at max efficiency rpm. According to the DynoSim software, maximum cylinder pressure is made at or near the torque peak. So, the fact that a motor is not detonating at low rpm does not mean that it will not detonate at, or close to, the torque peak.
  
 
These numbers may not mean anything at all, but they do illustrate that you cannot just pick a cam out of thin air like a lot of fellows do and expect it to work best for your particular combination.
 
These numbers may not mean anything at all, but they do illustrate that you cannot just pick a cam out of thin air like a lot of fellows do and expect it to work best for your particular combination.
  
 
[[Category:Engine]]
 
[[Category:Engine]]
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[[Category:Cylinder head]]

Revision as of 16:34, 18 June 2012

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