Difference between revisions of "HCPVinj"

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The waterflood is driven by pore volumes of injected fluid. Everything that is of practical interest occurs between zero to three pore volumes injected <ref name=DW/>.   
 
The waterflood is driven by pore volumes of injected fluid. Everything that is of practical interest occurs between zero to three pore volumes injected <ref name=DW/>.   
  
===Equation===
+
==Equation==
:<math> HCPV_{inj} = \frac{W_i * B_w}{HCPV}=\frac{W_i * B_w}{A * h * \phi * S_o}</math>
+
:<math> HCPV_{inj} = \frac{W_i * B_{wi}}{HCPV}=\frac{W_i * B_{wi}}{A * h * \phi * S_o}</math>
  
 
where
 
where
  
 
:<math> A </math> = Area, m2
 
:<math> A </math> = Area, m2
 +
:<math> B_{wi} </math> = Injected water formation oil factor, m3/m3
 
:<math> h </math> = Net pay, oil saturated thickness, m
 
:<math> h </math> = Net pay, oil saturated thickness, m
:<math> B_w </math> = Injected water formation oil factor, m3/m3
 
 
:<math> HCPV </math> = Hydrocarbon pore volume, m3
 
:<math> HCPV </math> = Hydrocarbon pore volume, m3
 
:<math> HCPV_{inj} </math> = Injected hydrocarbon pore volumes, fraction
 
:<math> HCPV_{inj} </math> = Injected hydrocarbon pore volumes, fraction
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:<math> S_o </math> = Oil saturation, fraction
 
:<math> S_o </math> = Oil saturation, fraction
  
===Related definitions===
+
==Related definitions==
 
Dimensionless injected pore volume:
 
Dimensionless injected pore volume:
:<math> W_{iD} = \frac{W_i * B_w}{PV} = \frac{W_i * B_w}{A * h * \phi}</math>
+
:<math> W_{iD} = \frac{W_i * B_{wi}}{PV} = \frac{W_i * B_{wi}}{A * h * \phi}</math>
  
 
Injected movable pore volume:
 
Injected movable pore volume:
:<math> MOPV_{inj} = \frac{W_i * B_w}{MOPV} = \frac{W_i * B_w}{A * h * \phi *(1-S_{wc}-S_{orw})}</math>
+
:<math> MOPV_{inj} = \frac{W_i * B_{wi}}{MOPV} = \frac{W_i * B_{wi}}{A * h * \phi *(1-S_{wc}-S_{orw})}</math>
  
 
where
 
where
  
 
:<math> S_{wc} </math> = Connate water saturation, fraction
 
:<math> S_{wc} </math> = Connate water saturation, fraction
:<math> S_{orw} </math> = Residual oil saturation, fraction
+
:<math> S_{orw} </math> = Residual oil saturation to water, fraction
  
 
==See Also==
 
==See Also==
 
*[[HCPV]]
 
*[[HCPV]]
 
*[[STOIIP]]
 
*[[STOIIP]]
 +
*[[VRR]]
 
*[[Pattern]]
 
*[[Pattern]]
 
*[[Block]]
 
*[[Block]]

Latest revision as of 17:34, 2 April 2022

Brief

HCPVinj is the total volume injected normalized by the hydrocarbon pore volume. The waterflood is driven by pore volumes of injected fluid. Everything that is of practical interest occurs between zero to three pore volumes injected [1].

Equation

 HCPV_{inj} = \frac{W_i * B_{wi}}{HCPV}=\frac{W_i * B_{wi}}{A * h * \phi * S_o}

where

 A = Area, m2
 B_{wi} = Injected water formation oil factor, m3/m3
 h = Net pay, oil saturated thickness, m
 HCPV = Hydrocarbon pore volume, m3
 HCPV_{inj} = Injected hydrocarbon pore volumes, fraction
 W_i = Cumulative water injection volume, m3
 \phi = Porosity, fraction
 S_o = Oil saturation, fraction

Related definitions

Dimensionless injected pore volume:

 W_{iD} = \frac{W_i * B_{wi}}{PV} = \frac{W_i * B_{wi}}{A * h * \phi}

Injected movable pore volume:

 MOPV_{inj} = \frac{W_i * B_{wi}}{MOPV} = \frac{W_i * B_{wi}}{A * h * \phi *(1-S_{wc}-S_{orw})}

where

 S_{wc} = Connate water saturation, fraction
 S_{orw} = Residual oil saturation to water, fraction

See Also

References

  1. Wolcott, Don (2009). Applied Waterflood Field DevelopmentPaid subscription required. Houston: Energy Tribune Publishing Inc.