Japan Geoscience Union Meeting 2018

Presentation information

[JJ] Evening Poster

M (Multidisciplinary and Interdisciplinary) » M-IS Intersection

[M-IS17] Gas hydrates in environmental-resource sciences

Tue. May 22, 2018 5:15 PM - 6:30 PM Poster Hall (International Exhibition Hall7, Makuhari Messe)

convener:Hitoshi Tomaru(Department of Earth Sciences, Chiba University), Akihiro Hachikubo(Kitami Institute of Technology), Atsushi Tani(神戸大学 大学院人間発達環境学研究科, 共同), Shusaku Goto(Institute for Geo-Resources and Environment National Institute of Advanced Industrial Science and Technology)

[MIS17-P16] In-situ strength of sediments from a hydrate deposit in the Krishna–Godavari Basin on the eastern margin of India

*Takehiro Hirose1, Wataru Tanikawa1, Yohei Hamada1, Weiren Lin3, Kentaro Hatakeda5, Osamu Tadai5, HungYu Wu2, Shun Nomura2, Natsue Abe2, Lallan Prasad Gupta1, Takamitsu Sugihara2, Yuka Masaki2, Masataka Kinoshita4, Yasuhiro Yamada2, NGHP Expedition 02 JAMSTEC Science Team (1.Kochi Institute for Core Sample Research, Japan Agency for Marine-Earth Science and Technology, 2.JAMSTEC, 3.Kyoto Univ., 4.Univ. Tokyo, 5.MWJ)

Keywords:strength , gas hydrate, Krishna-Godavari Basin, National Gas Hydrate Program Expedition 02

Formation strength of sediments overlying sub-seafloor gas-hydrate deposits is significant for estimating the stability of borehole and seafloor during hydrate extraction. Ideally, sediment strength should be determined along a borehole from the seafloor to the hydrate reservoir; yet few such profiles have been reported. In this study we collected cores at Site NGHP-02-23 in the Krishna–Godavari Basin during National Gas Hydrate Program Expedition 02 to conduct unconfined penetration tests on split core surface and triaxial deformation experiments on hydrate-free sediment samples under in situ pressure conditions. Based on strength measurements by penetrometer, relatively low strength ranging between 70 and 250 kPa due to hydrate dissociation is identified in the hydrate-bearing interval 90 – 300 mbsf, except for the intervals 140 – 150 mbsf and 250 – 270 mbsf, where the strength exceeds 300 kPa. These high-strength intervals lie just above a zone of high gas-hydrate concentration. Triaxial strength of hydrate-free sediments increases with depth from ~0.3 MPa at 48 mbsf to ~1.8 MPa at 332 mbsf, following the depth trend of strength defined by internal frictional coefficient of ~0.3. An exception to this trend was in fine sands from 280 mbsf in the deeper high gas-hydrate zone, where strength was greater than 2.2 MPa. Previously reported pressure-core measurements of the strength of hydrate-bearing sediments in the deeper gas-hydrate zone by Yoneda et al. (2017) also lie on that depth–strength trend. Distribution of the high strength intervals confirmed by both penetrometer and triaxial experiment can be intrinsically related to the hydrate concentrated zones. Because high strength layers commonly exhibit low permeability, they may act as a seal to assist precipitation of hydrate below the layers.