Difference between revisions of "Lee correlation"

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(Created page with "__TOC__ === Brief === Lee correlation for viscosity of natural gases. === Math & Physics === :<math> \mu_g = K\ e^{X\ \rho^Y} </math> where :<math> \rho = 0.000149496...")
 
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=== Brief ===
 
=== Brief ===
  
[[Lee correlation]] for viscosity of natural gases.
+
Lee correlation for viscosity of natural gases.
  
 
=== Math & Physics ===
 
=== Math & Physics ===

Revision as of 07:09, 27 April 2017

Brief

Lee correlation for viscosity of natural gases.

Math & Physics

\mu_g = K\ e^{X\ \rho^Y}

where

\rho = 0.000149496\ \frac{\ M_g}{z\ T}
K = \frac{(0.00094+2\times10^-6\ M_g)\ T^{1.5}}{(209+19M_g+T)}
X = 3.5+\frac{986}{T}+0.001M_g
Y = 2.4-0.203\ X
M_g = 28.967\ SG_g

Discussion

Why the Lee correlation?

Application range

560 \le T < 800R\ or\ 100 \le T < 340F 100 < P \le 8000 psia [1]

Nomenclature

\rho_g = gas density, g/cm3
\mu_g = gas viscosity, cp
M_g = gas molecular weight
P = pressure, psia
SG_g = gas specific gravity, dimensionless
T = temperature, °R
z = gas compressibility factor, dimensionless

References

  1. Lee, A. B.; Gonzalez, M. H.; Eakin, B. E. (1966). "The Viscosity of Natural Gases". J Pet Technol (SPE-1340-PA). 
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