Estimation and measurement of permeability inside methane hydrate mimicking porous media

The objective of this study is to mimic methane hydrate cores at atmospheric pressure conditions with the same permeability as oceanic methane hydrate cores. This became possible by freezing a solution of water, ethanol, and sodium bicarbonate in Toyoura sand at -10°C. First, partial freeze was meas...

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Bibliographic Details
Published in:Journal of Fluid Science and Technology
Main Authors: Guillaume LACAILLE, Hikaru YAMADA, Eita SHOJI, Lin CHEN, Hiroki GONOME, Junnosuke OKAJIMA, Atsuki KOMIYA, Shigenao MARUYAMA
Format: Article in Journal/Newspaper
Language:English
Published: The Japan Society of Mechanical Engineers 2016
Subjects:
methane hydrate
porous media
permeability
control
freezing point
fractional freezing
Science (General)
Q1-390
Technology
T
Methane hydrate
Online Access:https://doi.org/10.1299/jfst.2016jfst0031
https://doaj.org/article/54ef1cc067c049feb43fd4a4c7492406
Description
Summary:The objective of this study is to mimic methane hydrate cores at atmospheric pressure conditions with the same permeability as oceanic methane hydrate cores. This became possible by freezing a solution of water, ethanol, and sodium bicarbonate in Toyoura sand at -10°C. First, partial freeze was measured and theoretically evaluated in a solution of water, NaHCO3 and ethanol. Then, the permeability of the methane hydrate core mimicking samples was evaluated based on the partial freeze evaluation. Finally, the permeability of the methane hydrate core mimicking samples was measured by injecting a solution of water and ethanol at -10°C inside the partially frozen samples. The experimental results suggested that it is possible to control the permeability of the created porous media by changing the volume fraction of ethanol in the solution. Furthermore, the permeability of the methane hydrate core mimicking samples was of the same order as that of real oceanic methane hydrate cores for a weight percent of ethanol in the solution of 8wt%.

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