Water formation volume factor

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Contents

1 Water formation volume factor
2 Math and Physics
3 Example. Calculating water salinity from density
- 3.1 Input data
- 3.2 Solution
4 Nomenclature
5 See also
6 References

Water formation volume factor

The water formation volume factor represents the change in volume of the brine as it is transported from the reservoir conditions to surface conditions^[1].

The units are reservoir barrels per surface barrel at standard conditions, res bbl/STB.

Water formation volume factor

Math and Physics

B_w = (1+\Delta V_{wp})(1+\Delta V_{wT})

where

\Delta V_{wp} = -1.95301e-9 P T - 1.72834e-13 P^2 T - 3.58922e-7 P - 2.25341e-10 P^2

$dvwp = -1.95301e-9 * $psi * $F - 1.72834e-13 * pow($psi, 2) * $F - 3.58922e-7 * $psi - 2.25341e-10 * pow($psi, 2); $dvwt = -1.0001e-2 + 1.33391e-4 * $F + 5.50654e-7 * pow($F, 2);

Example. Calculating water salinity from density

Example source ^[1]

Input data

\rho_w

= 65.4 lbm/ft3

Calculate water salinity in weight percent solids?

Solution

SG_w = \rho_w/62.428=1.0476

C_{mg/l} = 25000 (1.0476 - 1) 62.428 = 74289.32

C_{ppm} = 74289.32 / 1.0476 = 70913.8

C_W = 70913.8 / 10000 = 7.1 %

Nomenclature

C_{ppm}

= water salinity / solids concentration, ppm

C_{mg/l}

= water salinity / solids concentration, mg/l

C_W

= weight percent solids, %

SG_w

= water specific gravity, dimensionless

See also

Water solids concentration

References

↑ ^1.0 ^1.1 McCain, W.D. Jr. (1990). Properties of Petroleum Fluids (2 ed.). Oklahoma: PennWell Corp. ISBN 978-0878143351.

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