Chapter 9 -Density logsinfohost.nmt.edu/~petro/faculty/Engler370/fmev-Chap9-densitylog.pdfChapter 9...
Transcript of Chapter 9 -Density logsinfohost.nmt.edu/~petro/faculty/Engler370/fmev-Chap9-densitylog.pdfChapter 9...
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Chapter 9 -Density logs
Lecture notes for PET 370
Spring 2011
Prepared by: Thomas W. Engler, Ph.D., P.E.
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Density Log
1950s • single detector tool developed initially to measure bulk density, rb, insitu
as an aid to geophysicists in gravity meter interpretation Early 1960s • accepted tool as a source for porosity Late 1960s • dual detector system, Compensated Formation Density (FDC) to correct
for borehole effects Early 1980s • development of Lithodensity Tool (LDT) to measure photoelectric effect,
Pe, with bulk density
Background
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Density Log
• Porosity/Lithology Determination
– Mineral identification in evaporates
– Gas detection (w/ other logs)
– Estimate mechanical properties (w/ sonic)
– Evaluation of shaly sands and complex lithologies
• Weak
– Determination of hydrocarbon density – Determination of oil shale yield – Identify overpressured zones
Uses
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Density Log
Logging speed:
15 to 30 fpm
Depth of investigation: 3 to 6”
Tool Schematic
Vertical
Resolution ~ 1 ft
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Density Log Principle of Operation
Bassiouni, 1994
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Density Log Theory
Emitted gamma rays interact with matter and lose energy
Energy
source Upper limit of Z
for common elements
encountered in logging
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Density Log
Density logging is based on measuring the attenuation of gamma rays caused by compton scattering, (CPS per energy)
Theory
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Density Log
• Compton scattering depends only on the electron density of the formation (# of electrons/cc)
• The electron density is related to the bulk density by,
Where for common elements in sedimentary rocks,
But for H2 the ratio is double.
• Calibrated in freshwater filled limestone formation.
Where rba is the apparent bulk density.
• rba rb for most common sedimentary rocks.
1883.0e
0704.1ba
rr
Calibration
rr
A
Z2be
00.1A
Z2
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Density Log
•Apparent bulk density (read by tool) = actual bulk density for ss, lms, and dols.
•For other formations (salt, anhydrite, coal) corrections are necessary.
Calibration
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Density Log
Advantage: Automatically compensates for mudcake and minor borehole irregularities. Limitations: 1. Correction valid only if mudcake or standoff < 0.75” and is uniform along pad. 2. Abnormally low density (high porosity) in washed out (> 17”) hole or rough hole
FDC
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Density Log
Count rates at two detectors are: f(spacing,rb ,rmc , hmc) Correction by: where, Dr is density correction from Spine and Rib Plot.
LS=(corr)b rDrr
FDC-Borehole Correction
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Density Log FDC-Borehole Correction
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Density Log Teague (Mckee) Field
La Munyon #76
Caliper
Incorrect
Density
Readings
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Density Log
dolofor 2.86
lmsfor 2.71
ssfor 2.65
densitymatrixma
where
fma
bma
or
f
ma)1(
b
oncontributi
fluid pore
oncontributi
matrix
densitybulk
Measured
r
rr
rr
rrr
Porosity
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Density Log
• Define rf as average density of fluid in pore space
• Depth of investigation of density tool is shallow (invaded zone), thus • In practice, Mud Type rmf (gm/cc) oil 0.9 Fresh water 1.0 Salt water 1.1 • In water-bearing zones, Sxo = 1 and rf = rmf • In oil-bearing zones, use same rf = rmf Assumes Sxo is large and rh rmf.
h)
xoS1(
mfxoS
frrr
Porosity
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Density Log
The density porosity is usually calculated assuming rf = 1 gm/cc. Compare this apparent porosity, a, to the true porosity, t , that corresponds to a bulk density of 2.1 gm/cc in the following: (1). a water-bearing sandstone invaded by a mud filtrate of 1.05 gm/cc density (2). a 0.8 gm/cc oil-bearing sandstone characterized by Sor = 30%. (3). a low pressure gas-bearing sandstone with 30% residual gas saturation. (4). a change in matrix density to 2.68 gm/cc.
Porosity-Example
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Density Log
Example
A
B
C
Porosity?
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Density Log
• Photoelectric absorption depends on both re and the average atomic number of the formation. •Two independent parameters, re and U, are measured in a low energy window
LDT - measurement
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Density Log
The absorption rate depends on the absorption coefficient per electron (Pe) and re;
1883.0b
U0704.1eP
density,electron for Substitute
3cm
electronse*
electron
barnseP
3cm
barns U
r
r
LDT - measurement
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Density Log
Advantage: The Pe curve distinguishes mineralogy regardless of porosity and fluid type in the pore space.
Common Pe values: quartz 1.81 calcite 5.08 dolomite 3.14 anhydrite 5.05
LDT - measurement
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Density Log
LDT -Example
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Density Log Teague (Mckee) Field
La Munyon #76
Caliper
Pe curve
0 10
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Density Log
LDT • Detector counts high energy gamma rays (compton scattering) and low
energy region (photoelectric effect) • Measures both bulk density and Pe • Pe is strong function of matrix • Lower statistical variation • Better vertical resolution
FDC • Detects only high energy gamma rays • Measures only bulk density • Strong function of porosity, matrix, and fluids
LDT/FDC comparison
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Density Log
Overpressured shale
Overpressured
Normal
Pressure
gradient
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Bassiouni, Z: Theory, Measurement, and Interpretation of Well Logs, SPE Textbook Series, Vol. 4, (1994)
Chapter 2, Sec 6 – 8
Chapter 8
Schlumberger, Log Interpretation Charts, Houston, TX (1995)
Schlumberger, Log Interpretation and Principles, Houston, TX (1989)
Western Atlas, Log Interpretation Charts, Houston, TX (1992)
Western Atlas, Introduction to Wireline Log Analysis, Houston, TX (1995)
Halliburton, Openhole Log Analysis and Formation Evaluation, Houston, TX (1991)
Halliburton, Log Interpretation Charts, Houston, TX (1991)
Density Log References