Difference between revisions of "IPR"

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(Oil well IPR equation)
(Inflow Performance Relationship)
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[[File:Inflow Performance Relationship.png|thumb|right|400px|link=https://www.pengtools.com/pqPlot|Inflow Performance Relationship Curve]]
 
[[File:Inflow Performance Relationship.png|thumb|right|400px|link=https://www.pengtools.com/pqPlot|Inflow Performance Relationship Curve]]
  
[[IPR]] is relationship between well bottomhole pressure and well production rate, usually in a form of a curve.  
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[[IPR]] is a curve of producing rates plotted against well bottomhole pressures.  
  
 
[[IPR]] curve shows productive capacity and performance of a well.
 
[[IPR]] curve shows productive capacity and performance of a well.

Revision as of 06:29, 5 April 2019

Inflow Performance Relationship

Inflow Performance Relationship Curve

IPR is a curve of producing rates plotted against well bottomhole pressures.

IPR curve shows productive capacity and performance of a well.

IPR curve is used in Nodal Analysis for production systems design, analysis and optimization.

Math and Physics

Oil well IPR equation

  • Darcy's law inflow equation for the single phase liquid:
 q = \frac{kh}{141.2 B \mu}\ (\bar{P} - P_{wf}) J_D

Gas well IPR equation

q_g=\frac{kh}{1422 \times 10^3\ T_R}\ (P_{\bar{P}} - P_{P_{wf}})\ J_D
  • C and n equation

IPR calculator software

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

See also

141.2 derivation
Darcy's law
JD
Production Potential