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Origin of Gassmann's equations

Journal Article · · Geophysics
DOI:https://doi.org/10.1190/1.1444667· OSTI ID:20000944
Gassmann's relations are receiving more attention as seismic data are increasingly used for reservoir monitoring. Correct interpretation of underground fluid migration from seismic data requires a quantitative understanding of the relationships among the velocity data and fluid properties in the form of fluid substitution formulas, and these formulas are very commonly based on Gassmann's equations. Nevertheless, confusion persists about the basic assumptions and the derivation of Gassmann's (1951) well-known equation in poroelasticity relating dry or drained bulk elastic constants to those for fluid-saturated and undrained conditions. It is frequently stated, for example, but quite incorrect to say that Gassmann assumes the shear modulus is constant (i.e., mechanically independent of the presence of the saturating fluid). This note clarifies the situation by presenting an unusually brief derivation of Gassmann's relations that emphasizes the true origin of the constant shear modulus result, while also clarifying the role played by the shear modulus in the derivation of the better understood result for the bulk modulus.
Research Organization:
Lawrence Livermore National Lab., CA (US)
Sponsoring Organization:
US Department of Energy
DOE Contract Number:
W-7405-ENG-48
OSTI ID:
20000944
Journal Information:
Geophysics, Journal Name: Geophysics Journal Issue: 5 Vol. 64; ISSN GPYSA7; ISSN 0016-8033
Country of Publication:
United States
Language:
English

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Related Subjects

58 GEOSCIENCES
EQUATIONS
FLUID FLOW
RESERVOIR FLUIDS
RESERVOIR ROCK
SEISMIC SURVEYS
SHEAR PROPERTIES