3 Phase IPR curve

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Revision as of 08:46, 11 April 2019

Contents

1 Three-phase Inflow Performance Relationship
2 Math and Physics
3 IPR calculator software
4 Nomenclature
- 4.1 Greek symbols
- 4.2 References
5 See also

Three-phase Inflow Performance Relationship

3 Phase IPR Curve ^[1]

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 P_b < P_wf < P_r

For pressures between reservoir pressure and bubble point pressure:

q_t =J (P_r - P_{wf})

^[1]

For P_wfG < P_wf < P_b

For pressures between the bubble point pressure and the flowing bottom-hole pressures:

q_t =\frac{-C+\sqrt{C^2-4B^2D}}{2B^2}\ for B \ne 0

^[1]

q_t =D/C\ for B = 0

^[1]

where:

A=\frac{P_{wf}+0.125F_oP_b-F_wP_r}{0.125F_oP_b}

^[1]

B=\frac{F_w}{0.125F_oP_bJ}

^[1]

C=2AB+\frac{80}{q_{o_{max}}-q_b}

^[1]

D=A^2-80\frac{q_b}{q_{o_{max}}-q_b}-81

^[1]

For 0 < P_wf < P_wfG

q_t =\frac{P_{wfG}+q_{o_{max}}tan(\beta)-P_{wf}}{tan(\beta)}

^[1]

where:

tan(\beta) = CD/CG

^[1]

CD = F_w\frac{0.001q_{o_{max}}}{J}+F_o0.125P_b \left ( -1+\sqrt{81-80 \frac{0.999q_{o_{max}}-q_b}{q_{o_{max}}-q_b}} \right)

^[1]

CG = 0.001 q_{o_{max}}

^[1]

And

P_{wfG}=F_w \left ( P_r - \frac{q_{o_{max}}}{J}\right )

^[1]

q_{o_{max}}=q_b+\frac{JP_b}{1.8}

^[1]

IPR calculator software

PQplot nodal analysis software is used to calculate the IPR curves. PQplot is available online at www.pengtools.com.
Excel
other

Nomenclature

B

= formation volume factor, bbl/stb

J_D

= dimensionless productivity index, dimensionless

kh

= permeability times thickness, md*ft

\bar{P}

= average reservoir pressure, psia

P_{\bar{P}}

= average reservoir pseudopressure, psia²/cP

P_{wf}

= well flowing pressure, psia

P_{P_{wf}}

= average well flowing pseudopressure, psia²/cP

q

= flowing rate, stb/d

q_g

= gas rate, MMscfd

T

= temperature, °R

Greek symbols

\mu

= viscosity, cp

References

↑ ^1.00 ^1.01 ^1.02 ^1.03 ^1.04 ^1.05 ^1.06 ^1.07 ^1.08 ^1.09 ^1.10 ^1.11 ^1.12 ^1.13 ^1.14 ^1.15 Brown, Kermit (1984). The Technology of Artificial Lift Methods. Volume 4. Production Optimization of Oil and Gas Wells by Nodal System Analysis. Tulsa, Oklahoma: PennWellBookss.

See also

141.2 derivation

Production Potential

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