Difference between revisions of "Water bubble point pressure"

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(Water bubble point pressure)
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The two are equal because of thermodynamic equilibrium between the brine and the oil.
 
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==
 
==See also==
 +
:[[Water solids concentration]]<BR/>
 
:[[Water salinity from density equation]]<BR/>
 
:[[Water salinity from density equation]]<BR/>
  

Revision as of 05:35, 1 October 2020

Water bubble point pressure

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.

See also

Water solids concentration
Water salinity from density equation

References

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