Difference between revisions of "Water compressibility"

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(Created page with "__TOC__ ==Water compressibility== The water formation volume factor represents the change in volume of the brine as it is transported from the reservoir conditions to surface...")
 
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==Water compressibility==
 
==Water compressibility==
The water formation volume factor represents the change in volume of the brine as it is transported from the reservoir conditions to surface conditions<ref name= M1990/>.
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The formation water (brine) isothermal compressibility data is published in '''1990'''.
  
The units are reservoir barrels per surface barrel at standard conditions, res bbl/STB.
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[[File:Water compressibility data.png|thumb|right|600px|Water compressibility data <ref name= M1990/>]]
 
 
[[File:Water compressibility.png|thumb|right|600px|Water compressibility]]
 
  
 
==Math and Physics==
 
==Math and Physics==

Revision as of 05:39, 2 October 2020

Water compressibility

The formation water (brine) isothermal compressibility data is published in 1990.

Water compressibility data [1]

Math and Physics

 B_w = (1+\Delta V_{wP})(1+\Delta V_{wT})[1]

where

 \Delta V_{wP} = -1.95301(10^{-9}) P T - 1.72834(10^{-13}) P^2 T - 3.58922(10^{-7}) P - 2.25341(10^{-10}) P^2
 \Delta V_{wT} = -1.0001(10^{-2}) + 1.33391(10^{-4}) T  + 5.50654(10^{-7}) T^2

Application range

The correlation is valid through the full range of solids concentrations, temperatures to 260F, and pressures to 5000psia[2].

Example. Calculating water formation volume factor

Example source [1]

Input data

Calculate water formation volume factor at 3176 psia and 165°F?

Solution

 \Delta V_{wP} = -0.0047241
 \Delta V_{wT} = 0.027
 B_w = 1.022

Nomenclature

 B_w = water formation volume factor, res bbl/STB
 P = pressure, psia
 T = Temperature, °F
 \Delta V_{wP} = pressure correction, res bbl/STB
 \Delta V_{wT} = temperature correction, res bbl/STB

See also

Water solids concentration

References

  1. 1.0 1.1 1.2 McCain, W.D. Jr. (1990). Properties of Petroleum Fluids (2 ed.). Oklahoma: PennWell Corp. ISBN 978-0878143351. 
  2. McCain, W.D. Jr. (1991). "Reservoir-Fluid Property Correlations-State of the Art"Free registration required. Society of Petroleum Engineers (SPE-18571-PA).