The sample boundary effect in the low-frequency measurements of the elastic moduli of rocks

Wenhui Tan; Vassily Mikhaltsevitch; Maxim Lebedev; Stanislav Glubokovskikh; Boris Gurevich

doi:10.1080/22020586.2019.12073061

2nd Australasian Exploration Geoscience Conference: Data to Discovery

ISSN: 2202-0586
E-ISSN:

oa The sample boundary effect in the low-frequency measurements of the elastic moduli of rocks
Authors Wenhui Tan^a, Vassily Mikhaltsevitch^b, Maxim Lebedev^c, Stanislav Glubokovskikh^d and Boris Gurevich^e
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^a Hohai University, Nanjing，Jiangsu, China, , 210098, [email protected] ^b Curtin University, GPO Box U 1987 Perth, , WA, 6845, [email protected] ^c Curtin University, GPO Box U 1987 Perth, , WA, 6845, [email protected] ^d Curtin University, GPO Box U 1987 Perth, , WA 6845A, [email protected] ^e Curtin University, GPO Box U 1987 Perth, , WA 6845A, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2019, Issue 2nd Australasian Exploration Geoscience Conference: Data to Discovery, Dec 2019, p. 1 - 3
DOI: https://doi.org/10.1080/22020586.2019.12073061
- Published online: 01 Dec 2019

Abstract

Summary

In this study we examine the effect of the boundary conditions on the laboratory measurements of the elastic properties of a fluid-saturated sedimentary rock at low frequencies. In laboratory experiments associated with studying fluid effects on elastic properties of a porous rock sample, the tested sample cannot be completely sealed due to the presence of the fluid lines connected to its pore space. These lines form a pore-fluid storage which can affect the results of the elastic moduli measurements of fluid-saturated rocks. We developed a modified version of the Gassmann model which can estimate the bulk moduli of fully saturated rocks in dependence on the capacity of the pore-fluid storage. Here, we compare the predictions of the modified Gassmann model with the moduli measured on an n-decane-saturated limestone sample with the volume of the pore-fluid storage changing from 2 ml to 260 ml. The experimental results were obtained using a low-frequency apparatus based on the forced-oscillation method at a frequency of 0.1 Hz. We demonstrate that the predictions of the modified Gassmann model are in good agreement with the experimental data.

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References

Berryman, J.G., 1999, Origin of Gassmann’s equations: Geophysics, 64, 1627–1629.
Dunn, K.-J., 1986, Acoustic attenuation in fluid-saturated porous cylinders at low frequencies: The Journal of the Acoustical Society of America, 79, 1709 – 1721.
Gassmann, F., 1951, Uber die elastizitat poroser medien: Vierteljahrsschrift der Naturforschenden Gesellschaft in Zurich, 96, 1–23.
Mikhaltsevitch, V., Lebedev, M., and Gurevich, B., 2014, A laboratory study of low-frequency wave dispersion and attenuation in water-saturated sandstones: The Leading Edge, 33, 616-622.
Pimienta, L., Borgomano, J. V. M., Fortin, J., and Gueguen, Y., 2016, Modelling the drained/undrained transition: Effect of the measuring method and the boundary conditions: Geophysical Prospecting, 64, 1098–1111.
Simmons, G. and Wang, H., 1971, Single crystal elastic constants and calculated aggregate properties: a handbook: M.I.T. Press.
Subramaniyan, S., Quintal, B., Tisato, N., Saenger, E. H., and Madonna, C., 2014, An overview of laboratory apparatuses to measure seismic attenuation in reservoir rocks: Geophysical Prospecting, 62, 1211–1223.
White J.E., 1986, Biot-Gardner theory of extensional waves in porous rods: Geophysics, 51, 742-745.

/content/journals/10.1080/22020586.2019.12073061

Article Type: Research Article

Keyword(s): boundary effect; elastic moduli; Gassmann

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oa The sample boundary effect in the low-frequency measurements of the elastic moduli of rocks

Abstract

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