Effects of hydrate on the stiffness of the hydrate bearing sediments in Ulleung Basin

Jung-Tae Kim; Chul-Wan Kang; Minhyeong Lee; Jin-seop Kim; Gye-Chun Cho

doi:10.1051/e3sconf/202020513005

All issues

Volume 205 (2020)

E3S Web Conf., 205 (2020) 13005

References

Open Access

Issue		E3S Web Conf. Volume 205, 2020 2^nd International Conference on Energy Geotechnics (ICEGT 2020)


Article Number		13005
Number of page(s)		2
Section		Extended Abstracts
DOI		https://doi.org/10.1051/e3sconf/202020513005
Published online		10 January 2022

Kim, A. R. (2016). THM Coupled Numerical Analysis of Gas Production from Methane Hydrate Deposits in the Ulleung Basin in Korea. Doctoral dissertation, Ph.D. Thesis, Korea Advanced Institute of Science and Technology, KAIST, Daejeon, Korea. [Google Scholar]
Lee, M., Hutchinson, D., Collett, T., and Dillon, W.P. (1996). “Seismic velocities for hydrate‐bearing sediments using weighted equation.” Journal of Geophysical Research: Solid Earth, 101(B9), 20347-20358. [Google Scholar]
Miyazaki, K., Masui, A., Sakamoto, Y., Aoki, K., Tenma, N., and Yamaguchi, T. (2011). “Triaxial compressive properties of artificial methane‐hydratebearing sediment.” Journal of Geophysical Research: Solid Earth, 116(B6). [Google Scholar]
Uchida, S., Soga, K., and Yamamoto, K. (2012). “Critical state soil constitutive model for methane hydrate soil.” Journal of Geophysical Research: Solid Earth, 117(B3). [Google Scholar]
Wood, W. T., Stoffa, P. L., and Shipley, T. H. (1994). “Quantitative detection of methane hydrate through high‐resolution seismic velocity analysis.” Journal of Geophysical Research: Solid Earth, 99(B5), 9681-9695. [Google Scholar]
Wyllie, M., Gregory, A., and Gardner, G. (1958). “An experimental investigation of factors affecting elastic wave velocities in porous media.” Geophysics, 23(3),459-493. [Google Scholar]

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[1] Kim, A. R. (2016). THM Coupled Numerical Analysis of Gas Production from Methane Hydrate Deposits in the Ulleung Basin in Korea. Doctoral dissertation, Ph.D. Thesis, Korea Advanced Institute of Science and Technology, KAIST, Daejeon, Korea. [Google Scholar]

[2] Lee, M., Hutchinson, D., Collett, T., and Dillon, W.P. (1996). “Seismic velocities for hydrate‐bearing sediments using weighted equation.” Journal of Geophysical Research: Solid Earth, 101(B9), 20347-20358. [Google Scholar]

[3] Miyazaki, K., Masui, A., Sakamoto, Y., Aoki, K., Tenma, N., and Yamaguchi, T. (2011). “Triaxial compressive properties of artificial methane‐hydratebearing sediment.” Journal of Geophysical Research: Solid Earth, 116(B6). [Google Scholar]

[4] Uchida, S., Soga, K., and Yamamoto, K. (2012). “Critical state soil constitutive model for methane hydrate soil.” Journal of Geophysical Research: Solid Earth, 117(B3). [Google Scholar]

[5] Wood, W. T., Stoffa, P. L., and Shipley, T. H. (1994). “Quantitative detection of methane hydrate through high‐resolution seismic velocity analysis.” Journal of Geophysical Research: Solid Earth, 99(B5), 9681-9695. [Google Scholar]

[6] Wyllie, M., Gregory, A., and Gardner, G. (1958). “An experimental investigation of factors affecting elastic wave velocities in porous media.” Geophysics, 23(3),459-493. [Google Scholar]