- 作者:J.Y. Lee ; G.-Y. Kim ; N.K. Kang ; B.-Y. Yi ; J.W. Jung ; J.-H. Im ; B.-K. Son ; J.-J. Bahk ; J.-H. Chun ; B.-J. Ryu ; D.S. Kim
- 关键词:Gas hydrate ; Physical property ; Production ; Porosity ; Grain density ; Diatom ; Shear strength ; Thermal conductivity
- 刊名:Marine and Petroleum Geology
- 出版年:2013
- 出版时间:November, 2013
- 年:2013
- 卷:47
- 期:Complete
- 页码:43-55
- 全文大小:2544 K
The averaged porosity at each site ranges from 65 % to 71 % , the averaged grain density at each site ranges from 2.57 to 2.66?g/cm3, and the mean grain size mostly lies between 4?¦Ìm and 25?¦Ìm, with sparsely scattered coarse grained intervals. The relatively high porosity and low grain density are due to the large portion of diatomaceous sediments. The thermal conductivities average around 0.8?W/mK, and the low porosity and the abundance of clay mineral and OAPL-A may have caused the relatively low thermal conductivity in the Ulleung Basin.
The geomechanical analyses revealed a few relevant findings important for sediment physical behaviors during gas hydrate production. The particle migration in coarse grained layers during production necessitates proper measure for sand productions while fine grained layers are mostly self-filtering. The vertical deformation estimated from the compression index suggested that the subsidence induced by the pore pressure change from the depressurization is much higher than those induced by the lost of gas hydrate particles from dissociation. Massive vertical deformation in fine-grained layers has been predicted to occur due to the pore pressure change from depressurization induced gas hydrate production. The drilling mud weight induced pressure window is mostly determined by the water depth in deep sea drilling, but caution should be taken in determination of fracture pressures in hydrate-bearing sediments, because gas hydrate saturations alter Poisson's ratio.