Difference between revisions of "Gray correlation"

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== Math & Physics ==
 
== Math & Physics ==
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Following the law of conservation of energy the basic steady state flow equation is:
 +
:<math> 144 \frac{\Delta p}{\Delta h} = [H_g \rho_g + (1-H_g) \rho_L] + \frac{f q_L^2 M^2}{2.9652 \times 10^{11} D^5 \bar \rho_m} + \bar \rho_m \frac{\Delta{(\frac{v_m^2}{2g_c}})}{\Delta h}</math><ref name="Gray" />
  
 
== Discussion  ==
 
== Discussion  ==

Revision as of 12:09, 4 April 2017

Brief

  • The boundary between the bubble and slug flow[1]

Math & Physics

Following the law of conservation of energy the basic steady state flow equation is:

 144 \frac{\Delta p}{\Delta h} = [H_g \rho_g + (1-H_g) \rho_L] + \frac{f q_L^2 M^2}{2.9652 \times 10^{11} D^5 \bar \rho_m} + \bar \rho_m \frac{\Delta{(\frac{v_m^2}{2g_c}})}{\Delta h}[1]

Discussion

Nomenclature

References

  1. 1.0 1.1 Gray, H. E. (1974). "Vertical Flow Correlation in Gas Wells". User manual for API 14B, Subsurface controlled safety valve sizing computer program. API.