Difference between revisions of "3 Phase IPR"
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== Nomenclature == | == Nomenclature == | ||
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+ | :<math> A, B, C, D, tan{\beta), CD, CG </math> = calculation variables | ||
:<math> J </math> = productivity index, stb/d/psia | :<math> J </math> = productivity index, stb/d/psia | ||
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− | |||
:<math> P </math> = pressure, psia | :<math> P </math> = pressure, psia | ||
:<math> q </math> = flowing rate, stb/d | :<math> q </math> = flowing rate, stb/d | ||
− | :<math> | + | |
+ | :<math> F_o </math> = oil fraction, fraction | ||
+ | :<math> F_w </math> = water fraction, fraction | ||
===Subscripts=== | ===Subscripts=== |
Revision as of 08:55, 11 April 2019
Contents
Three-phase Inflow Performance Relationship
3 Phase IPR calculates IPR curve for oil wells producing water.
3 Phase IPR equation was derived by Petrobras based on combination of Vogel's IPR equation for oil flow and constant productivity for water flow [1].
3 Phase IPR curve is determined geometrically from those equations considering the fractional flow of oil and water [1].
Math and Physics
Total flow rate equations:
For Pb < Pwf < Pr
For pressures between reservoir pressure and bubble point pressure:
For PwfG < Pwf < Pb
For pressures between the bubble point pressure and the flowing bottom-hole pressures:
where:
For 0 < Pwf < PwfG
where:
And
3 Phase IPR calculation example
- PQplot nodal analysis software is used to calculate the IPR curves. PQplot is available online at www.pengtools.com.
- Excel
- other
Nomenclature
- Failed to parse (syntax error): A, B, C, D, tan{\beta), CD, CG = calculation variables
- = productivity index, stb/d/psia
- = pressure, psia
- = flowing rate, stb/d
- = oil fraction, fraction
- = water fraction, fraction
Subscripts
- b = at bubble point
- max = maximum
- o = oil
- r = reservoir
- t = total
- test = well test
- wf = well flowing bottomhole pressure
- wfG = well flowing bottomhole pressure at point G