Difference between revisions of "P/Z plot"
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== Brief == | == Brief == | ||
| − | The [[P/Z plot]] is a plot of P/ | + | The [[P/Z plot]] is a plot of P/z versus [[Reservoirs | Reservoir]] cumulative gas production, G<sub>p</sub>. |
The interpretation technique is fitting the data points with the straight line to estimate GIIP. | The interpretation technique is fitting the data points with the straight line to estimate GIIP. | ||
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| + | The [[P/Z plot]] is based on the [[Gas Material Balance]] equation. | ||
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| + | [[File:PoverZ.png|thumb|right|600px|link=https://ep.pengtools.com/reservoir/plots| P/Z plot at ep.pengtools.com|right]] | ||
== Math & Physics == | == Math & Physics == | ||
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Applying [[Real Gas]] [[EOS]] at reservoir conditions: | Applying [[Real Gas]] [[EOS]] at reservoir conditions: | ||
| − | :<math> PV_r=z\frac{m}{M} RT_r</math> (1) | + | :<math> PV_r=z\frac{m}{M} RT_r</math> (1) |
Applying [[Real Gas]] [[EOS]] at standard conditions: | Applying [[Real Gas]] [[EOS]] at standard conditions: | ||
| − | :<math> P_{SC}V_g=1\frac{m}{M} RT_{SC}</math> (2) | + | :<math> P_{SC}V_g=1\frac{m}{M} RT_{SC}</math> (2) |
Dividing eq. 2 by eq. 1 and rearranging: | Dividing eq. 2 by eq. 1 and rearranging: | ||
| − | :<math> V_g=\frac{P}{z} \frac{V_rT_{SC}}{P_{SC}T_{r}}</math>(3) | + | :<math> V_g=\frac{P}{z} \frac{V_rT_{SC}}{P_{SC}T_{r}}</math> (3) |
Applying eq. 3 for initial conditions and for any point in time: | Applying eq. 3 for initial conditions and for any point in time: | ||
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:<math> \frac{G_p}{GIIP}=1-\frac{P}{z} \frac{z_i}{P_i}</math> | :<math> \frac{G_p}{GIIP}=1-\frac{P}{z} \frac{z_i}{P_i}</math> | ||
| − | Or: | + | Or: |
| + | :<math> \frac{P}{z}=\frac{P_i}{z_i} \left (1- \frac{G_p}{GIIP}\right )</math> | ||
| − | + | Thus a plot of P/z vs cumulative produced gas is a straight line intersecting X axis at GIIP. | |
== Discussion == | == Discussion == | ||
| − | [[ | + | [[P/Z plot]] is a part of the [[Reservoir Management]] workflow in the [[:Category:E&P Portal | E&P Portal]] used to estimate [[Reservoirs]] GIIP and recovery. |
| − | == | + | '''Example 1. Multiple Reservoirs on the same [[P/Z plot]]''' in the [[:Category:E&P Portal | E&P Portal]] |
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| + | [[File:Poverz_multiple_reservoirs.png]] | ||
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| + | [[Gas Flowing Material Balance]] is the more advanced tool to determine the [[Reservoirs]] GIIP and recovery as well as [[Well]]'s [[EUR]] and [[JD]]. | ||
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| + | == Workflow == | ||
| + | # Upload the data required | ||
| + | # Go to the [[Reservoir Management]] -> [https://ep.pengtools.com/reservoir/plots Performance Plots] | ||
| + | # Select the [[Reservoirs]] you want to see and the Data range and click "Search" | ||
| + | # Scroll down the Performance Plots to see the [[P/Z plot]] | ||
| − | + | === Data Required=== | |
| − | + | {{Data required for Reservoir Management}} | |
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| − | == | + | == See also == |
| − | < | + | [[Gas Flowing Material Balance]]<BR/> |
| + | [[Gas Material Balance]]<BR/> | ||
| − | + | == Nomenclature == | |
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| − | < | + | :<math> GIIP </math> = gas initially in place, scf |
| − | + | :<math> G_p </math> = cumulative gas produced, scf | |
| − | + | :<math> P </math> = reservoir pressure (changing), psia | |
| − | + | :<math> P_{i} </math> = initial reservoir pressure (constant), psia | |
| − | + | :<math> P_{SC} </math> = pressure at standard conditions, psia | |
| − | + | :<math> T_i </math> = initial reservoir temperature (constant), °R | |
| − | + | :<math> T_r </math> = reservoir temperature (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_r </math> = reservoir volume (constant), ft<sup>3</sup> | |
| − | + | :<math> z </math> = gas compressibility factor (changing), dimensionless | |
| + | :<math> z_i </math> = initial gas compressibility factor (constant), dimensionless | ||
| − | + | [[Category:Reservoir Management]] | |
| − | + | [[Category:E&P Portal]] | |
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| − | + | {{#seo: | |
| − | + | |title=P/Z plot to estimate reservoirs GIIP | |
| + | |titlemode= replace | ||
| + | |keywords=giip calculation, reservoir engineering, material balance, petroleum engineering | ||
| + | |description=P/Z plot is and quick and easy to use tool to estimate reservoirs GIIP. | ||
| + | }} | ||
Latest revision as of 05:22, 8 November 2018
Contents
Brief
The P/Z plot is a plot of P/z versus Reservoir 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 in the E&P Portal used to estimate Reservoirs GIIP and recovery.
Example 1. Multiple Reservoirs on the same P/Z plot in the E&P Portal
Gas Flowing Material Balance is the more advanced tool to determine the Reservoirs GIIP and recovery as well as Well's EUR and JD.
Workflow
- Upload the data required
- Go to the Reservoir Management -> Performance Plots
- Select the Reservoirs you want to see and the Data range and click "Search"
- Scroll down the Performance Plots to see the P/Z plot
Data Required
- Create Field here
- Upload Wells
- Create or Upload Reservoirs here
- Upload Monthly Measures here
- Input the Reservoirs reserves and other data here
- Create or Upload PVT (SG, Pi, Ti) here
In case you need to calculate the Monthly Measures from the Daily Measures:
- Upload Wells
- Upload Daily Measures
- Calculate the Monthly Measures using Monthly Measures Calculator
See also
Gas Flowing Material Balance
Gas Material Balance
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 temperature (constant), °R
= reservoir temperature (constant), °R
= temperature at standard conditions (constant), °R
= volume of gas in reservoir converted to standard conditions (changing), scf
= reservoir volume (constant), ft3
= gas compressibility factor (changing), dimensionless
= initial gas compressibility factor (constant), dimensionless
