Kinetics of methane hydrate formation and dissociation in sand sediment

International audience Methane hydrate is being considered as a potential future energy source but may at the same time constitute a considerable geo-hazard. In the present study, methane hydrate bearing sand sediment was created by pressurizing methane gas into previously moistened, then chilled, p...

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Bibliographic Details
Published in:Geomechanics for Energy and the Environment
Main Authors: Le, Thi Xiu, Rodts, Stéphane, Hautemayou, David, Aimedieu, Patrick, Bornert, Michel, Chabot, Baptiste, Tang, Anh Minh
Other Authors: Laboratoire Navier (navier umr 8205), Institut Français des Sciences et Technologies des Transports, de l'Aménagement et des Réseaux (IFSTTAR)-École des Ponts ParisTech (ENPC)-Centre National de la Recherche Scientifique (CNRS), Modélisation et expérimentation multi-échelle pour les solides hétérogènes (multi-échelle), Institut Français des Sciences et Technologies des Transports, de l'Aménagement et des Réseaux (IFSTTAR)-École des Ponts ParisTech (ENPC)-Centre National de la Recherche Scientifique (CNRS)-Institut Français des Sciences et Technologies des Transports, de l'Aménagement et des Réseaux (IFSTTAR)-École des Ponts ParisTech (ENPC)-Centre National de la Recherche Scientifique (CNRS), Géotechnique (cermes)
Format: Article in Journal/Newspaper
Language:English
Published: HAL CCSD 2020
Subjects:
Magnetic resonance imaging
Dissociation/formation
Kinetics
Gas hydrate bearing sand sediment
[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det]
Methane hydrate
Online Access:https://enpc.hal.science/hal-02171357
https://enpc.hal.science/hal-02171357/document
https://enpc.hal.science/hal-02171357/file/Le_MRI.pdf
https://doi.org/10.1016/j.gete.2018.09.007
Description
Summary:International audience Methane hydrate is being considered as a potential future energy source but may at the same time constitute a considerable geo-hazard. In the present study, methane hydrate bearing sand sediment was created by pressurizing methane gas into previously moistened, then chilled, packed sand specimen (excess gas method). The excess gas was then replaced by water at high pressure. Afterward, a heating/cooling cycle was applied under undrained conditions, in order to completely dissociate gas hydrates and then recreate them inside the specimen. Finally, the pore pressure was reduced to the atmospheric pressure to dissociate gas hydrates. The whole process was performed in a magnetic resonance imaging (MRI) system, allowing the determination of water and/or gas and hydrate quantity (and spatial distribution) at various times. The MRI signal was finally analyzed to interpret various processes in sand sediment: initial hydrate formation, heating-induced hydrate dissociation, cooling-induced hydrate re-formation, and depressurizing-induced hydrate dissociation.

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