Difference between revisions of "Lee correlation"
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− | :<math> \mu_g = K\ e^{X\ \rho_g^Y} </math><ref name= Lee/> | + | :<math> \mu_g = K\ e^{(X\ \rho_g^Y)} </math><ref name= Lee/> |
where | where | ||
:<math> \rho_g = \frac{1}{62.428} \times \frac{28.967\ SG_g\ p}{z\ 10.732\ T}</math> | :<math> \rho_g = \frac{1}{62.428} \times \frac{28.967\ SG_g\ p}{z\ 10.732\ T}</math> |
Revision as of 14:24, 2 May 2017
Brief
Lee correlation for viscosity of natural gases.
Math & Physics
where
Discussion
Why the Lee correlation?
Application range
Nomenclature
- = gas density, g/cm3
- = gas viscosity, cp
- = gas molecular weight
- = pressure, psia
- = gas specific gravity, dimensionless
- = temperature, °R
- = gas compressibility factor, dimensionless
References
- ↑ Lee, A. B.; Gonzalez, M. H.; Eakin, B. E. (1966). "The Viscosity of Natural Gases". J Pet Technol (SPE-1340-PA).