Difference between revisions of "P/Z plot"
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:<math> T_{SC} </math> = temperature at standard conditions (constant), °R | :<math> T_{SC} </math> = temperature at standard conditions (constant), °R | ||
:<math> V_g </math> = volume of gas in reservoir converted to standard conditions (changing), scf | :<math> V_g </math> = volume of gas in reservoir converted to standard conditions (changing), scf | ||
+ | :<math> V_r </math> = reservoir volume, ft<sup>3</sup> | ||
:<math> z </math> = gas compressibility factor (changing), dimensionless | :<math> z </math> = gas compressibility factor (changing), dimensionless | ||
[[Category:Reservoir Management]] | [[Category:Reservoir Management]] | ||
[[Category:E&P Portal]] | [[Category:E&P Portal]] |
Revision as of 11:25, 21 November 2017
Brief
The P/Z plot is a plot of P/z versus cumulative gas production, Gp.
The interpretation technique is fitting the data points with the straight line to estimate GIIP.
The P/Z plot is based on the Gas Material Balance equation.
Math & Physics
Applying Real Gas EOS at reservoir conditions:
- (1)
Applying Real Gas EOS at standard conditions:
- (2)
Dividing eq. 2 by eq. 1 and rearranging:
- (3)
Applying eq. 3 for initial conditions and for any point in time:
Applying eq. 3 for any point in time:
Therefore at any time:
Or:
Thus a plot of P/z vs cumulative produced gas is a straight line intersecting X axis at GIIP.
Discussion
P/Z plot is a part of the Reservoir Management workflow of the E&P Portal to estimate Reservoirs GIIP.
Gas Flowing Material Balance is the more advanced tool to determine the Reservoirs GIIP as well as Well's EUR and JD.
Nomenclature
- = gas initially in place, scf
- = cumulative gas produced, scf
- = reservoir pressure (changing), psia
- = initial reservoir pressure (constant), psia
- = pressure at standard conditions, psia
- = initial reservoir pressure (constant), °R
- = reservoir pressure (constant), °R
- = temperature at standard conditions (constant), °R
- = volume of gas in reservoir converted to standard conditions (changing), scf
- = reservoir volume, ft3
- = gas compressibility factor (changing), dimensionless