Difference between revisions of "Yield"

Latest revision as of 12:31, 21 April 2017

Yield is how much liquid hydrocarbons you get per volume of the gas produced.

Measured at the surface.

Calculated from the Flash.

Yield = 10^6 \times \frac{x \times M_L \times \frac{1}{\rho_L} \times \frac{1}{5.615}}{y \times 379.5}\ \left [ \frac{bbl}{MMscf} \right ]

M_L

= liquid molecular weight, lb_m/lb_mol

\rho_L

= liquid density, lb_m/ft³

x

= molar fraction of the liquid phase, lb_mol

y

= molar fraction of the vapor phase, lb_mol

Yield

= yield, bbl/MMscf

379.5 scf/lb_mol at P_sc = 14.7 psia and T_sc = 60°F ^[1]

↑ John M. Campbell and Company (2004). Gas Conditioning and Processing. 1 The Basic Principles (8 ed.). Norman, Oklahoma, USA: John M. Campbell and Company. ISBN 0-9703449-0-2.

@@ Line 13: / Line 13: @@
 == Nomenclature  ==
-:<math> M </math> = molecular weight, lb<sub>m</sub>/lb<sub>mol</sub>
+:<math> M_L </math> = liquid molecular weight, lb<sub>m</sub>/lb<sub>mol</sub>
+:<math> \rho_L </math> = liquid density, lb<sub>m</sub>/ft<sup>3</sup>
 :<math> x </math> = molar fraction of the liquid phase, lb<sub>mol</sub>
 :<math> y </math> = molar fraction of the vapor phase, lb<sub>mol</sub>
 :<math> Yield </math> = yield, bbl/MMscf
-===Greek symbols===
+===Conversions===
-:<math> \rho </math> = density, lb<sub>m</sub>/ft<sup>3</sup>
-===Subscripts===
-L = liquid<BR/>
+.5 scf/lb<sub>mol</sub> at P<sub>sc</sub> = 14.7 psia and T<sub>sc</sub> = 60°F <ref name=Campbell/>
-===Conversions===
+=== See also ===
-.5 scf/lb<sub>mol</sub> at P<sub>sc</sub>=14.7 psia and T<sub>sc</sub> 60°F <ref name=Campbell/>
+[[GOR]]<BR/>
+[[GLR]]<BR/>
+[[OGR]]<BR/>
+[[WCUT]]<BR/>
+[[WGR]]<BR/>
+[[WOR]]<BR/>
+[[Yield]]<BR/>
 == References ==