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Ultrasonic attenuation of pure tetrahydrofuran hydrate

Journal Article · · Geophysical Prospecting
 [1];  [1];  [1]
  1. Colorado School of Mines Golden CO 80401 USA
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ABSTRACT

Improved estimates of the amount of subsurface gas hydrates are needed for natural resource, geohazard, and climate impact assessments. To evaluate gas hydrate saturation from seismic methods, the properties of pure gas hydrates need to be known. Whereas the properties of sediments, specifically sands, and hydrate‐bearing sediments are well studied, the properties of pure hydrates are largely unknown. Hence, we present laboratory ultrasonic P‐wave velocity and attenuation measurements on pure tetrahydrofuran hydrates as they form with reducing temperatures from 25°C to 1°C under atmospheric pressure conditions. Tetrahydrofuran hydrates, with structure II symmetry, are considered as proxies for the structure I methane hydrates because both have similar effects on elastic properties of hydrate‐bearing sediments. We find that although velocity increased, the waveform frequency content and amplitude decreased after the hydrate formation reaction was complete, indicating an increase in P‐wave attenuation after hydrate formation. When the tetrahydrofuran hydrate was cooled below the freezing point of water, velocity and quality factor increased. Nuclear Magnetic Resonance results indicate the presence of water in the “pure hydrate” samples above the water freezing point, but none below. The presence of liquid water between hydrate grains most likely causes heightened attenuation in tetrahydrofuran hydrates above the freezing point of water. In naturally occurring hydrates, a similarly high attenuation might relate to the presence of water.

Sponsoring Organization:
USDOE
Grant/Contract Number:
NONE; FE0009963
OSTI ID:
1456274
Alternate ID(s):
OSTI ID: 1541571
Journal Information:
Geophysical Prospecting, Journal Name: Geophysical Prospecting Journal Issue: 7 Vol. 66; ISSN 0016-8025
Publisher:
Wiley-BlackwellCopyright Statement
Country of Publication:
United States
Language:
English

References (25)

Attenuation in sand: an exploratory study on the small-strain behavior and the influence of moisture condensation journal August 2007
Utility of NMR T2 distributions, connection with capillary pressure, clay effect, and determination of the surface relaxivity parameter ρ2 journal January 1996
The effect of methane hydrate morphology and water saturation on seismic wave attenuation in sand under shallow sub-seafloor conditions journal April 2013
Effect of mineralogy on nuclear magnetic resonance surface relaxivity: A case study of Middle Bakken and Three Forks formations journal December 2015
Stability Boundaries of Tetrahydrofuran + Water System journal November 2005
Sonic waveform attenuation in gas hydrate-bearing sediments from the Mallik 2L-38 research well, Mackenzie Delta, Canada journal January 2002
Modeling of acoustic wave dissipation in gas hydrate-bearing sediments: ACOUSTIC WAVE DISSIPATION journal July 2005
Compressional and shear wave velocities in uncemented sediment containing gas hydrate journal January 2005
Elastic wave speeds and moduli in polycrystalline ice Ih, sI methane hydrate, and sII methane-ethane hydrate journal January 2009
Attenuation of seismic waves in methane gas hydrate-bearing sand journal January 2006
Laboratory Measurements of Compressional and Shear Wave Speeds through Methane Hydrate journal January 2000
Isotope Effect on Eutectic and Hydrate Melting Temperatures in the Water-THF System journal January 2010
Compressional‐Wave Attenuation in Marine Sediments journal August 1972
Attenuation of seismic waves in dry and saturated rocks: I. Laboratory measurements journal April 1979
Attenuation of seismic waves in dry and saturated rocks: II. Mechanisms journal April 1979
Relationships among compressional wave attenuation, porosity, clay content, and permeability in sandstones journal August 1990
Attenuation mechanisms in sands: Laboratory versus theoretical (Biot) data journal May 1992
Elastic properties of gas hydrate‐bearing sediments journal May 2001
Empirical estimation of viscoelastic seismic parameters from petrophysical properties of sandstone journal September 2001
Seismic wave attenuation in a methane hydrate reservoir journal August 2004
Extensional wave attenuation and velocity in partially‐saturated sand in the sonic frequency range conference March 2012
Crosshole waveform tomography velocity and attenuation images of arctic gas hydrates conference March 2012
Velocity and attenuation of compressional waves in brines conference May 2004
Quantifying uncertainties in attenuation estimation at methane-hydrate-bearing zones using sonic waveform logs journal September 2013
A Study of Ultrasonic Guided Wave NDT Technique based on PEEK rod journal August 2015

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