Difference between revisions of "Water bubble point pressure"

Latest revision as of 08:15, 5 October 2020

The bubble point of a gas-saturated formation water (brine) is equal to the bubble point pressure of coexisting oil ^[1].

The two are equal because of thermodynamic equilibrium between the brine and the oil.

↑ McCain, W.D. Jr. (1990). Properties of Petroleum Fluids (2 ed.). Oklahoma: PennWell Corp. ISBN 978-0878143351.

@@ Line 5: / Line 5: @@
 The two are equal because of thermodynamic equilibrium between the brine and the oil.
-==Math and Physics==
-:<math> C_{ppm} = \frac{gram\ solid}{10^6\ gram\ water}</math>
-:<math> C_{mg/l} = \frac{milligram\ solid}{litre\ water}</math>
-:<math> C_W = \frac{gram\ solid}{100\ gram\ water}</math>
-==Conversions==
-:<math> C_{mg/l} = C_{ppm}\ SG_w</math>
-Often, parts per million and milligrams per liter are used interchangeably. This is correct only if the density of the brine at standard conditions can be assumed to be 1 g/cc ( 1000 kg/m3, SG_w=1, 62.428 lbm/ft3) <ref name= M1990/>.
-:<math> C_W = C_{ppm}/10000</math>
-== Nomenclature  ==
-:<math> C_{ppm} </math> = water salinity or solids concentration, ppm
-:<math> C_{mg/l} </math> = water salinity or solids concentration, mg/l
-:<math> C_W </math> = water salinity or weight percent solids, %
-:<math> SG_w </math> = water specific gravity, dimensionless
 ==See also==
+:[[Water bubble point pressure]]<BR/>
+:[[Water compressibility]]<BR/>
+:[[Water density]]<BR/>
+:[[Water formation volume factor]]<BR/>
 :[[Water salinity from density equation]]<BR/>
+:[[Water solids concentration]]<BR/>
+:[[Water viscosity]]<BR/>
+:[[Gas/Water Interfacial Tension]]
 == References ==