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Attenuation and dispersion of compressional waves in fluid-filled porous rocks with partial gas saturation (White model). Part II. Results

Journal Article · · Geophysics; (United States)
DOI:https://doi.org/10.1190/1.1440939· OSTI ID:5330118
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In this investigation, Biot's (1962) theory for wave propagation in porous solids is applied to study the velocity and attenuation of compressional seismic waves in partially gas-saturated porous rocks. The physical model, proposed by White (1975), is solved rigorously by using Biot's equations which describe the coupled solid-fluid motion of a porous medium in a systematic way. The quantiative results presented here are based on the theory described in Dutta and Ode' (1979, this issue). We removed several of White's questioned approximations and examined their effects on the quantitative results. We studied the variation of the attenuation coefficient with frequency, gas saturation, and size of gas inclusions in an otherwise brine-filled rock. Anomalously large absorption (as large as 8 dB/cycle) at the exploration seismic frequency band is predicted by this model for young, unconsolidated sandstones. For a given size of the gas pockets and their spacing, the attenuation coefficient (in dB/cycle) increases almost linearly with frequency f to a maximum value and then decreases approximately as l/..sqrt..f. A sizable velocity dispersion (of the order of 30 percent) is also predicted by this model. A low gas saturation (4 to 6 percent) is found to yield high absorption and dispersion.

Research Organization:
Shell Development Co., Houston, TX
OSTI ID:
5330118
Journal Information:
Geophysics; (United States), Journal Name: Geophysics; (United States) Vol. 44:11; ISSN GPYSA
Country of Publication:
United States
Language:
English

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Related Subjects

03 NATURAL GAS
030200 -- Natural Gas-- Reserves
Geology
& Exploration
58 GEOSCIENCES
580201 -- Geophysics-- Seismology & Tectonics-- (1980-1989)
580203* -- Geophysics-- Geophysical Survey Methods-- (1980-1989)
ATTENUATION
DATA
GAS SATURATION
INFORMATION
MATHEMATICAL MODELS
NUMERICAL DATA
POROSITY
ROCKS
SANDSTONES
SATURATION
SEDIMENTARY ROCKS
SEISMIC P WAVES
SEISMIC WAVES
THEORETICAL DATA