Porosity and Permeability Evolution Induced by Precipitation of Silica under Hydrothermal Conditions

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• 作者：Atsushi Okamoto^a ; ^{okamoto@mail.kankyo.tohoku.ac.jp} ; Ryo Yamada^a ; Hanae Saishu^b ; Noriyoshi Tsuchiya^a
• 关键词：silica ; precipitation ; hydrothermal experiments ; fluid pressure oscillation
• 刊名：Procedia Earth and Planetary Science
• 出版年：2017
• 出版时间：2017
• 年：2017
• 卷：17
• 期：Complete
• 页码：249-252
• 全文大小：283 K
• 卷排序：17

文摘

Water-rock interaction provides significant influences on evolution of hydrological properties within the crusts. Especially, dissolution and precipitation of silica in fractures play essential roles on permeability evolution. In this study, we conducted hydrothermal-flow through experiments on silica precipitation within porous media (alumina inner tube packed with alumina balls) for investigating how a fracture is clogged by silica precipitation. We used high Si supersaturated solution for precipitation under vapor (390 °C and 20 MPa) or supercritical condition (420 °C and 30 MPa), and the porosity structure was examined by X-ray CT. Under the vapor condition, fine-grained quartz was nucleated and immediately deposited on the bottom. In contrast, under the supercritical condition, spherical silica particles, which are composed of opal-A, opal-C and quartz, were formed in fluids, transported and covered the surface of alumina balls uniformly. In the latter case, a characteristic fluid pressure (permeability) oscillation was observed; which is probably explained by repeated clogging and break of pore throats.