Difference between revisions of "Gas Flowing Material Balance"
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## <math> \frac{P}{z}=\frac{P_i}{z_i} \left (1- \frac{G_p}{GIIP}\right )</math> | ## <math> \frac{P}{z}=\frac{P_i}{z_i} \left (1- \frac{G_p}{GIIP}\right )</math> | ||
# Calculate the orange <math> \frac{\bar{P}}{z}</math> curve: | # Calculate the orange <math> \frac{\bar{P}}{z}</math> curve: | ||
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## Calculate the <math> b_{pss}</math> | ## Calculate the <math> b_{pss}</math> | ||
## Calculate the pseudopressure, <math> P_{\bar{P}}</math> | ## Calculate the pseudopressure, <math> P_{\bar{P}}</math> | ||
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## Calculate the <math> \frac{\bar{P}}{z}</math> | ## Calculate the <math> \frac{\bar{P}}{z}</math> | ||
− | === | + | ===bsss=== |
+ | ## Given the flowing wellhead pressures, calculate the flowing bottomhole pressures, <math>P_{wf}</math> | ||
+ | ## Convert the flowing pressures to pseudopressures, <math>P_{P_{wf}}</math> | ||
Calculate initial pseudopressure, <math>P_{Pi}</math> | Calculate initial pseudopressure, <math>P_{Pi}</math> | ||
Calculate material balance pseudo-time, <math>t_{ca}</math> | Calculate material balance pseudo-time, <math>t_{ca}</math> |
Revision as of 08:10, 11 December 2017
Contents
Brief
Gas Flowing Material Balance is the advanced engineering technique to determine the Reservoirs GIIP and recovery as well as Well's EUR and JD.
Gas Flowing Material Balance is applied on the Well level given readily available well flowing data: production rate and tubing head pressure.
The interpretation technique is fitting the data points with the straight line to estimate GIIP and JD.
Math & Physics
Combining the gas pseudo state flow equation and the Gas Material Balance equation to get Gas Flowing Material Balance equation:
where
Material balance pseudo-time:
Discussion
Workflow
- Calculate the red line:
- Calculate the orange curve:
- Calculate the
- Calculate the pseudopressure,
- Convert the pseudopressure to pressure,
- Calculate the
bsss
- Given the flowing wellhead pressures, calculate the flowing bottomhole pressures,
- Convert the flowing pressures to pseudopressures,
Calculate initial pseudopressure, Calculate material balance pseudo-time, Plot versus . The intercept gives and . Calculate the average reservoir pseudopressure from Gas Flowing Material Balance equation,
Data required
Nomenclature
- = flow area, ft2
- = correlation group, dimensionless
- = formation factor, bbl/stb
- = coefficient for liquid viscosity number, dimensionless
- = pipe diameter, ft
- = depth, ft
- = correlation group, dimensionless
- = liquid holdup factor, dimensionless
- = friction factor, dimensionless
- = gas-liquid ratio, scf/bbl
- = total mass of oil, water and gas associated with 1 bbl of liquid flowing into and out of the flow string, lbm/bbl
- = pipe diameter number, dimensionless
- = gas velocity number, dimensionless
- = liquid viscosity number, dimensionless
- = liquid velocity number, dimensionless
- = pressure, psia
- = conversion constant equal to 32.174049, lbmft / lbfsec2
- = total liquid production rate, bbl/d
- = Reynolds number, dimensionless
- = solution gas-oil ratio, scf/stb
- = specific gravity, dimensionless
- = temperature, °R or °K, follow the subscript
- = velocity, ft/sec
- = water-oil ratio, bbl/bbl
- = gas compressibility factor, dimensionless
Greek symbols
- = absolute roughness, ft
- = viscosity, cp
- = density, lbm/ft3
- = integrated average density at flowing conditions, lbm/ft3
- = surface tension of liquid-air interface, dynes/cm (ref. values: 72 - water, 35 - oil)
- = secondary correlation factor, dimensionless
Subscripts
- g = gas
- K = °K
- L = liquid
- m = gas/liquid mixture
- o = oil
- R = °R
- SL = superficial liquid
- SG = superficial gas
- w = water
References
- ↑ Mattar, L.; Anderson, D (2005). "Dynamic Material Balance (Oil or Gas-In-Place Without Shut-Ins)" (PDF). CIPC.