Effects of dissociation on the shear strength and deformation behavior of methane hydrate-bearing sediments

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• 作者：Masayuki Hyodo ; Yanghui Li ; Jun Yoneda ; Yukio Nakata ; Norimasa Yoshimoto ; Akira Nishimura
• 关键词：Methane hydrate ; Shear strength ; Deformation behavior ; Dissociation
• 刊名：Marine and Petroleum Geology
• 出版年：March, 2014
• 年：2014
• 卷：51
• 期：Complete
• 页码：52-62
• 全文大小：4145 K

文摘

A series of tests were conducted in order to investigate the shear strength and deformation behavior of methane hydrate-bearing sediments during dissociation using the thermal recovery method or depressurization method. An innovative temperature-controlled high pressure triaxial apparatus which can reproduce the in situ conditions of hydrate reservoirs was used. The results indicate that: (1) the failure strength of isotropically consolidated methane hydrate-bearing sediments which dissociated completely using the thermal recovery method is less than that of pure Toyoura sand. However, the initial stiffness and volumetric strain are higher than that of pure Toyoura sand. (2) The thermal recovery method will cause the failure of methane hydrate-bearing sediments when the axial load is higher than the strength of methane hydrate-bearing sediments after dissociation. (3) The depressurization method will not cause collapse of methane hydrate-bearing sediments during depressurization. However, water pressure recovery will lead to failure when the axial load is larger than the strength of the methane hydrate-bearing sediments after dissociation. (4) The depressurization rate shows little effect on the ultimate deformation of methane hydrate-bearing sediments, while the initial deformation rate increases with increasing depressurization rate. (5) The larger the reduction of pore pressure, the larger axial strain and volumetric strain.