Difference between revisions of "Production Potential"
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<math>{J_D}_{max}= \frac{6}{\pi} \approx 1.91 </math> | <math>{J_D}_{max}= \frac{6}{\pi} \approx 1.91 </math> | ||
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+ | ==Achieving potential== | ||
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+ | Can [[Production Potential]] be achieved? | ||
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+ | The ideal, of producing and recovering at potential, is rarely obtained in practice. [[29+ reasons why you can not increase the production |Reasons]] for this vary from company to company, but more often than not, the reason is well potentials are not known and therefore not managed. | ||
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== References == | == References == |
Revision as of 15:42, 11 July 2018
Brief
Production Potential is the maximum rate that can be delivered by Well, Pattern, Block or Reservoir.
Math and Physics
The Darcy's law can be written as:
where:
- is the oil or gas production rate,
- is the Reservoir transmissibility and is given by the Mother Nature,
- is the Lift System Drawdawn which is set by the operational engineering practices[1],
- is the Completion System dimensionless productivity index which is set by the design engineering practices[1].
The rate is maximum then and are maximum.
Maximum
The drawdown is:
The maximum drawdown is reached then the flowing bottomhole pressure, , so:
Maximum
The maximum possible stimulation potential is pseudo steady linear flow with:
Achieving potential
Can Production Potential be achieved?
The ideal, of producing and recovering at potential, is rarely obtained in practice. Reasons for this vary from company to company, but more often than not, the reason is well potentials are not known and therefore not managed.
References
- ↑ 1.0 1.1 Wolcott, Don (2009). Applied Waterflood Field Development. Houston: Energy Tribune Publishing Inc.