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PETE 324 (07A) — Material Balance Slide — 1
Petroleum Engineering 324Reservoir Performance
Thomas A. Blasingame, Ph.D., P.E.Department of Petroleum Engineering — Texas A&M University
College Station, TX 77843-3116 (USA)+1.979.845.2292
t-blasingame@tamu.edu
Material Balance16 February 2007
PETE 324 (07A) — Material Balance Slide — 2
Material BalanceOrientation
Material Balance: IssuesOil MBE (must know all data, also cf(p)).Gas MBE (abnormal pressure, water drive).
Material Balance: Topics"Accounting" Concept of Material Balance:
Require all inflows/outflows/generations. (Average) reservoir pressure profile is REQUIRED.Require rock, fluid, and rock-fluid properties (at some scale).
Oil Material Balance:Less common than gas material balance (pressure required).
Gas Material Balance:Volumetric dry gas reservoir (p/z versus Gp (straight-line)).Abnormally-pressured gas reservoirs (various techniques).Waterdrive/water influx cases (always problematic)MaterialBalance yields RESERVOIR VOLUME!
PETE 324 (07A) — Material Balance Slide — 3
General Concept of Material Balance...
From: Petroleum Reservoir Engineering— Amyx, Bass, and Whiting (1960).
a. Initial reservoir conditions. b. Conditions after producing NpSTB of oil, and Gp SCF of gas, and Wp STB of water.
Material Balance: Key IssuesMust have accurate production measurements (oil, water, gas).Estimates of average reservoir pressure (from pressure tests).Suites of PVT data (oil, gas, water).Reservoir properties: saturations, formation compressibility, etc.
Reservoir Engineering (Material Balance)Material Balance of a Petroleum Reservoir
PETE 324 (07A) — Material Balance Slide — 4
Average Reservoir Pressure
From: Engineering Features of the Schuler Field and Unit Operation — Kaveler (SPE-AIME, 1944).
Average Reservoir Pressure: Key IssuesMust "average" pressures over volume or area (approximation).Pressure tests must be representative (pavg extrapolation valid).Can average using cumulative production (surrogate for volume).
Reservoir Engineering (Material Balance)Average Reservoir Pressure for Material Balance
PETE 324 (07A) — Material Balance Slide — 5
Black Oil Material Balance Case: (Example)Note that all fluid functions are given: Np, Wp, and GOR (for Gp).Average reservoir pressure is presumed correct.Authors cite "partial waterdrive" — remains a contentious issue.
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Reservoir Engineering (Material Balance)Oil Material Balance Case (1/2)
PETE 324 (07A) — Material Balance Slide — 6
"Black Oil" Material Balance: (p>pb )
"Solution Gas Drive" (Oil) Material Balance: (all p)
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Oil Material Balance Relations:
Reservoir Engineering (Material Balance)Oil Material Balance Case (2/2)
PETE 324 (07A) — Material Balance Slide — 7
General Gas Material Balance:
"Dry Gas" Material Balance: (no reservoir liquids )
"Abnormal Pressure" Material Balance: (cf=f(p))
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Gas Material Balance Relations:
Reservoir Engineering (Material Balance)Gas Material Balance Case (1/6)
PETE 324 (07A) — Material Balance Slide — 8
Gas Material Balance: Abnormally Pressured Reservoir ExampleNormal pressure production sequence (volumetric depletion, Gapp).Abnormal pressure production sequence (OGIP, G).
Reservoir Engineering (Material Balance)Gas Material Balance Case (2/6)
PETE 324 (07A) — Material Balance Slide — 9
Gas Material Balance: Abnormally Pressured Reservoir ExampleNormal pressure production sequence (volumetric depletion, Gapp).Abnormal pressure production sequence (OGIP, G).
Reservoir Engineering (Material Balance)Gas Material Balance Case (3/6)
a. Gas Material Balance Plot: p/z vs. Gp —Illustration of the abnormal pressure trend starting at an inflection point defined by the hydrostatic (normal) pressure.
b. Gas Material Balance Plot: p/z vs. Gp —Illustration of the abnormal pressure trend starting at an inflection point defined by the hydrostatic (normal) pressure.
PETE 324 (07A) — Material Balance Slide — 10
"Dry Gas" Material Balance: Normally Pressured Reservoir ExampleVolumetric reservoir — no external energy (gas expansion only).p/z versus Gp yields unique straight-line trend.Linear extrapolation yield gas-in-place (G).
Reservoir Engineering (Material Balance)Gas Material Balance Case (4/6)
PETE 324 (07A) — Material Balance Slide — 11
"Dry Gas" Material Balance: Abnormally Pressured Reservoir ExampleVolumetric reservoir — no water influx or leakage.p/z versus Gp yields unique quadratic trend (from approximated MBE).Quadratic extrapolation yield gas-in-place (G).
Reservoir Engineering (Material Balance)Gas Material Balance Case (5/6)
PETE 324 (07A) — Material Balance Slide — 12
a. Gas Material Balance Plot: p/z vs. Gp —simulated performance. Note effect of aquifer permeability on field performance.
b. Gas Material Balance Plot: p/z vs. Gp— simulated performance. Note effect of displacement efficiency (Ep).
Gas Material Balance: Water Drive Gas ReservoirPressure (hence p/z) is maintained during production via communication with an unsteady-state aquifer (this study).From: Unsteady-State Performance of Water Drive Gas Reservoirs, Agarwal (Texas A&M Ph.D., 1967).
Reservoir Engineering (Material Balance)Gas Material Balance Case (6/6)
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