Laboratory measurement of sonic (1–20 kHz) P-Wave Velocity and attenuation during melting of ice-bearing sand
Laboratory measurement of sonic (1–20 kHz) P-Wave Velocity and attenuation during melting of ice-bearing sand
We measured the acoustic properties of ice-bearing sand packs in the laboratory using an acoustic pulse tube within the frequency range of 1–20 kHz, similar to sonic well-logs. We analyzed how wave velocity and attenuation (the inverse of quality factor) change with ice saturation and measurement frequency during melting. We found strong frequency-dependent correlations for both acoustic parameters with ice saturation. For any frequency within the studied range, velocity decreases and attenuation increases as the ice melts. For lower ice saturations (Si < ∼0.5), attenuation was particularly sensitive to frequency linked to acoustic wave scattering from patchy ice saturation. We used rock physics models with three-phase approaches to assess our experimental results. The comparison highlights the influence of ice formation distribution (i.e., uniform vs. patchy), permeability, and gas content on both velocity and attenuation. Our results pave the way for monitoring ice saturation from sonic measurements, as ice saturation has contrasting effects on velocity and attenuation, and the effects vary with frequency. Overall, this research contributes to a better understanding of the acoustic response of ice-bearing sediments and provides valuable insights for various applications, including permafrost monitoring and natural gas hydrate dissociation studies.
attenuation, compressional wave, ice, sand, velocity
Sutiyoso, Hanif S.
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Sahoo, Sourav K.
6dab0376-36df-44c5-9f36-cb4a29d9b03b
North, Laurence J.
65837b6b-40f1-4a1c-ba66-ec6ff2d7f84b
Falcon-Suarez, Ismael Himar
f5cdbc61-326b-424d-a90f-593a8698a4d2
Minshull, Timothy A.
bf413fb5-849e-4389-acd7-0cb0d644e6b8
Best, Angus I.
f962ede8-2ff2-42b6-baa1-88d93dfb08dd
24 April 2025
Sutiyoso, Hanif S.
b0aef29a-6e9c-4e2b-ba88-67eae43501f1
Sahoo, Sourav K.
6dab0376-36df-44c5-9f36-cb4a29d9b03b
North, Laurence J.
65837b6b-40f1-4a1c-ba66-ec6ff2d7f84b
Falcon-Suarez, Ismael Himar
f5cdbc61-326b-424d-a90f-593a8698a4d2
Minshull, Timothy A.
bf413fb5-849e-4389-acd7-0cb0d644e6b8
Best, Angus I.
f962ede8-2ff2-42b6-baa1-88d93dfb08dd
Sutiyoso, Hanif S., Sahoo, Sourav K., North, Laurence J., Falcon-Suarez, Ismael Himar, Minshull, Timothy A. and Best, Angus I.
(2025)
Laboratory measurement of sonic (1–20 kHz) P-Wave Velocity and attenuation during melting of ice-bearing sand.
Journal of Geophysical Research: Solid Earth, 130 (4), [e2024JB030465].
(doi:10.1029/2024JB030465).
Abstract
We measured the acoustic properties of ice-bearing sand packs in the laboratory using an acoustic pulse tube within the frequency range of 1–20 kHz, similar to sonic well-logs. We analyzed how wave velocity and attenuation (the inverse of quality factor) change with ice saturation and measurement frequency during melting. We found strong frequency-dependent correlations for both acoustic parameters with ice saturation. For any frequency within the studied range, velocity decreases and attenuation increases as the ice melts. For lower ice saturations (Si < ∼0.5), attenuation was particularly sensitive to frequency linked to acoustic wave scattering from patchy ice saturation. We used rock physics models with three-phase approaches to assess our experimental results. The comparison highlights the influence of ice formation distribution (i.e., uniform vs. patchy), permeability, and gas content on both velocity and attenuation. Our results pave the way for monitoring ice saturation from sonic measurements, as ice saturation has contrasting effects on velocity and attenuation, and the effects vary with frequency. Overall, this research contributes to a better understanding of the acoustic response of ice-bearing sediments and provides valuable insights for various applications, including permafrost monitoring and natural gas hydrate dissociation studies.
Text
JGR Solid Earth - 2025 - Sutiyoso - Laboratory Measurement of Sonic 1 20 kHz P‐Wave Velocity and Attenuation During
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Accepted/In Press date: 31 March 2025
e-pub ahead of print date: 24 April 2025
Published date: 24 April 2025
Keywords:
attenuation, compressional wave, ice, sand, velocity
Identifiers
Local EPrints ID: 501585
URI: http://eprints.soton.ac.uk/id/eprint/501585
ISSN: 2169-9356
PURE UUID: 3a18a05d-7ef4-40fd-b5ba-d872f5b73474
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Date deposited: 04 Jun 2025 16:32
Last modified: 22 Aug 2025 02:28
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Contributors
Author:
Sourav K. Sahoo
Author:
Laurence J. North
Author:
Ismael Himar Falcon-Suarez
Author:
Angus I. Best
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