S. Almenningen, E. Iden, M. A. Fernø, and G. Ersland, Salinity effects on porescale methane gas hydrate dissociation, Journal of Geophysical Research: Solid Earth, vol.123, issue.7, pp.5599-5608, 2018.

S. A. Bagherzadeh, I. L. Moudrakovski, J. A. Ripmeester, and P. Englezos, Magnetic resonance imaging of gas hydrate formation in a bed of silica sand particles, Energy & Fuels, vol.25, issue.7, pp.3083-3092, 2011.

B. A. Baldwin, J. Stevens, J. J. Howard, A. Graue, B. Kvamme et al., Using magnetic resonance imaging to monitor ch4 hydrate formation and spontaneous conversion of ch4 hydrate to co2 hydrate in porous media, Magnetic resonance imaging, vol.27, issue.5, pp.720-726, 2009.

Y. Beaudoin, W. Waite, R. Boswell, and S. Dallimore, Frozen heat: A global outlook on methane gas hydrates, United Nations Environment Programme, GRID-Arendal, vol.29, 2014.

J. G. Beltrán and P. Servio, Morphological investigations of methane-hydrate films formed on a glass surface, Crystal Growth & Design, vol.10, issue.10, pp.4339-4347, 2010.

R. Boswell, G. Moridis, M. Reagan, and T. S. Collett, Gas hydrate accumulation types and their application to numerical simulation, vol.130, pp.17-22, 2011.

R. Boswell, K. Yamamoto, S. Lee, T. Collett, P. Kumar et al., Methane hydrates, Future energy, pp.159-178, 2014.

J. Brugada, Y. Cheng, K. Soga, and J. Santamarina, Discrete element modelling of geomechanical behaviour of methane hydrate soils with pore-filling hydrate distribution, Granular Matter, vol.12, issue.5, pp.517-525, 2010.

K. Bybee, Development of natural-gas supply chain by means of natural-gas hydrates, Journal of Petroleum Technology, vol.61, issue.07, pp.62-64, 2009.

J. M. Carcione and U. Tinivella, Bottom-simulating reflectors: Seismic velocities and avo effects, Geophysics, vol.65, issue.1, pp.54-67, 2000.

M. Chaouachi, A. Falenty, K. Sell, F. Enzmann, M. Kersten et al., Microstructural evolution of gas hydrates in sedimentary matrices observed with synchrotron x-ray computed tomographic microscopy, Geochemistry, Geophysics, Geosystems, vol.16, issue.6, pp.1711-1722, 2015.

X. Chen and D. N. Espinoza, Ostwald ripening changes the pore habit and spatial variability of clathrate hydrate, Fuel, vol.214, pp.614-622, 2018.

J. Choi, S. Dai, J. Cha, and Y. Seol, Laboratory formation of noncementing hydrates in sandy sediments, Geochemistry, Geophysics, Geosystems, vol.15, issue.4, pp.1648-1656, 2014.

S. Circone, S. H. Kirby, and L. A. Stern, Direct measurement of methane hydrate composition along the hydrate equilibrium boundary, The Journal of Physical Chemistry B, vol.109, issue.19, pp.9468-9475, 2005.

V. Clausnitzer and J. W. Hopmans, Determination of phase-volume fractions from tomographic measurements in two-phase systems, Advances in water resources, vol.22, issue.6, pp.577-584, 1999.

M. B. Clennell, M. Hovland, J. S. Booth, P. Henry, and W. J. Winters, Formation of natural gas hydrates in marine sediments: 1. conceptual model of gas hydrate growth conditioned by host sediment properties, Journal of Geophysical Research: Solid Earth, vol.104, issue.B10, pp.22985-23003, 1999.

V. Cnudde and M. N. Boone, High-resolution x-ray computed tomography in geosciences: A review of the current technology and applications, Earth-Science Reviews, vol.123, pp.1-17, 2013.

T. Collett, J. Bahk, R. Baker, R. Boswell, D. Divins et al., Methane hydrates in nature -current knowledge and challenges, Journal of chemical & engineering data, vol.60, issue.2, pp.319-329, 2014.

T. S. Collett, Energy resource potential of natural gas hydrates, AAPG bulletin, vol.86, issue.11, pp.1971-1992, 2002.

T. S. Collett, A. Johnson, C. C. Knapp, and R. Boswell, Natural Gas Hydrates: Energy Resource Potential and Associated Geologic Hazards, vol.89, 2010.

D. D. Cortes, A. I. Martin, T. S. Yun, F. M. Francisca, J. C. Santamarina et al., Thermal conductivity of hydrate-bearing sediments, Journal of Geophysical Research: Solid Earth, issue.B11, p.114, 2009.

J. L. Cox, Natural gas hydrates: Properties, occurrence and recovery, 1983.

J. Dai, H. Xu, F. Snyder, and N. Dutta, Detection and estimation of gas hydrates using rock physics and seismic inversion: Examples from the northern deepwater gulf of mexico, vol.23, pp.60-66, 2004.

S. Dai, J. C. Santamarina, W. F. Waite, and T. J. Kneafsey, Hydrate morphology: Physical properties of sands with patchy hydrate saturation, Journal of Geophysical Research: Solid Earth, issue.B11, p.117, 2012.

S. Dai and Y. Seol, Water permeability in hydrate-bearing sediments: A pore-scale study, Geophysical Research Letters, vol.41, issue.12, pp.4176-4184, 2014.

S. Dallimore, T. Uchida, and T. Collett, Scientific results from JAPEX/JNOC/GSC Mallik 2L-38 gas hydrate research well, Mackenzie delta, Geological Survey of Canada Ottawa, vol.544, 1999.

D. Davidson, S. Garg, S. Gough, R. Hawkins, and J. Ripmeester, Characterization of natural gas hydrates by nuclear magnetic resonance and dielectric relaxation, Canadian Journal of Chemistry, vol.55, issue.20, pp.3641-3650, 1977.

M. Davie, O. Y. Zatsepina, and B. Buffett, Methane solubility in marine hydrate environments, Marine geology, vol.203, issue.1-2, pp.177-184, 2004.

J. Dupla, L. S. Pedro, J. Canou, and L. Dormieux, Comportement mécanique des sols grossiers de référence, Bulletin des laboratoires des ponts et chaussées, issue.268, pp.31-58, 2007.

J. Dvorkin, M. B. Helgerud, W. F. Waite, S. H. Kirby, and A. Nur, Introduction to physical properties and elasticity models, Natural Gas Hydrate, pp.245-260, 2000.

J. Dvorkin and A. Nur, Elasticity of high-porosity sandstones: Theory for two north sea data sets, Geophysics, vol.61, issue.5, pp.1363-1370, 1996.

J. Dvorkin, A. Nur, Y. , and H. , Effective properties of cemented granular materials, Mechanics of materials, vol.18, issue.4, pp.351-366, 1994.

T. Ebinuma, Y. Kamata, H. Minagawa, R. Ohmura, J. Nagao et al., Mechanical properties of sandy sediment containing methane hydrate, Proceedings of Fifth International Conference on Gas Hydrates, vol.3037, pp.958-961, 2005.

T. Ebinuma, K. Suzuki, J. Nagao, H. Oyama, and H. Narita, Ultrasonic wave velocities associated with formation and dissociation of methane hydrate in artificial sandy sediments, Offshore Technology Conference. Offshore Technology Conference, 2008.

C. Ecker, J. Dvorkin, and A. Nur, Sediments with gas hydrates: Internal structure from seismic avo, Geophysics, vol.63, issue.5, pp.1659-1669, 1998.

G. Ersland, J. Husebø, A. Graue, B. Baldwin, J. Howard et al., Measuring gas hydrate formation and exchange with co2 in bentheim sandstone using mri tomography, Chemical Engineering Journal, vol.158, issue.1, pp.25-31, 2010.

D. Everett, The thermodynamics of frost damage to porous solids, Transactions of the Faraday society, vol.57, pp.1541-1551, 1961.

Z. Fan, C. Sun, Y. Kuang, B. Wang, J. Zhao et al., Mri analysis for methane hydrate dissociation by depressurization and the concomitant ice generation, Energy Procedia, vol.105, pp.4763-4768, 2017.

S. Feia, J. C. Dupla, S. Ghabezloo, J. Sulem, J. Canou et al., Experimental investigation of particle suspension injection and permeability impairment in porous media, Geomechanics for Energy and the Environment, vol.3, pp.24-39, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01977793

S. Feia, J. Sulem, J. Canou, S. Ghabezloo, and X. Clain, Changes in permeability of sand during triaxial loading: effect of fine particles production, Acta Geotechnica, vol.11, issue.1, pp.1-19, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01070484

J. Fonseca, C. O'sullivan, and M. Coop, Image segmentation techniques for granular materials, AIP Conference Proceedings, vol.1145, pp.223-226, 2009.

R. Freij-ayoub, C. Tan, B. Clennell, B. Tohidi, Y. et al., A wellbore stability model for hydrate bearing sediments, Journal of Petroleum Science and Engineering, vol.57, issue.1-2, pp.209-220, 2007.

J. F. Gabitto and C. Tsouris, Physical properties of gas hydrates: A review, Journal of Thermodynamics, 2010.

Y. Gao, Q. Lin, B. Bijeljic, and M. J. Blunt, X-ray microtomography of intermittency in multiphase flow at steady state using a differential imaging method, Water Resources Research, vol.53, issue.12, pp.10274-10292, 2017.

S. K. Garg, J. W. Pritchett, A. Katoh, K. Baba, and T. Fujii, A mathematical model for the formation and dissociation of methane hydrates in the marine environment, Journal of Geophysical Research: Solid Earth, issue.B1, p.113, 2008.

F. Gassmann, Elastic waves through a packing of spheres, Geophysics, vol.16, issue.4, pp.673-685, 1951.

A. Georgiadis, S. Berg, A. Makurat, G. Maitland, and H. Ott, Pore-scale microcomputed-tomography imaging: Nonwetting-phase cluster-size distribution during drainage and imbibition, Physical Review E, vol.88, issue.3, p.33002, 2013.

J. Gudmundsson, F. Hveding, and A. Børrehaug, Transport or natural gas as frozen hydrate, The Fifth International Offshore and Polar Engineering Conference. International Society of Offshore and Polar Engineers, 1995.

C. Haligva, P. Linga, J. A. Ripmeester, and P. Englezos, Recovery of methane from a variable-volume bed of silica sand/hydrate by depressurization, Energy & Fuels, vol.24, issue.5, pp.2947-2955, 2010.

S. A. Hall, M. Bornert, J. Desrues, Y. Pannier, N. Lenoir et al., Discrete and continuum analysis of localised deformation in sand using x-ray [mu] ct and volumetric digital image correlation, Géotechnique, vol.60, issue.5, p.315, 2010.

G. Han, T. Kwon, J. Y. Lee, and T. J. Kneafsey, Depressurization-induced fines migration in sediments containing methane hydrate: X-ray computed tomography imaging experiments, Journal of Geophysical Research: Solid Earth, vol.123, issue.4, pp.2539-2558, 2018.

M. A. Hashemi, G. Khaddour, B. François, T. J. Massart, and S. Salager, A tomographic imagery segmentation methodology for three-phase geomaterials based on simultaneous region growing, Acta Geotechnica, vol.9, issue.5, pp.831-846, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01953942

K. U. Heeschen, J. M. Schicks, and G. Oeltzschner, The promoting effect of natural sand on methane hydrate formation: Grain sizes and mineral composition, Fuel, vol.181, pp.139-147, 2016.

M. Helgerud, J. Dvorkin, A. Nur, A. Sakai, and T. Collett, Elastic-wave velocity in marine sediments with gas hydrates: Effective medium modeling, Geophysical Research Letters, vol.26, issue.13, pp.2021-2024, 1999.

J. Helliwell, Synchrotron x-radiation protein crystallography: instrumentation, methods and applications, Reports on Progress in Physics, vol.47, issue.11, p.1403, 1984.

M. Holland, P. Schultheiss, and J. Roberts, Gas hydrate saturation and morphology from analysis of pressure cores acquired in the bay of bengal during expedition nghp-02, offshore india. Marine and Petroleum Geology, 2018.

M. Holland, P. Schultheiss, J. Roberts, and M. Druce, Observed gas hydrate morphologies in marine sediments, 6th International Conference on Gas Hydrates, pp.6-10, 2008.

H. Hong, M. Pooladi-darvish, and P. Bishnoi, Analytical modelling of gas production from hydrates in porous media, Journal of Canadian Petroleum Technology, vol.42, issue.11, pp.45-56, 2003.

A. N. Houston, W. Otten, P. C. Baveye, and S. Hapca, Adaptive-window indicator kriging: A thresholding method for computed tomography images of porous media, Computers & geosciences, vol.54, pp.239-248, 2013.

H. Hsieh, G. O. Brown, M. L. Stone, and D. A. Lucero, Measurement of porous media component content and heterogeneity using gamma ray tomography, Water resources research, vol.34, issue.3, pp.365-372, 1998.

M. Hyodo, Y. Li, J. Yoneda, Y. Nakata, N. Yoshimoto et al., Effects of dissociation on the shear strength and deformation behavior of methane hydrate-bearing sediments. Marine and petroleum geology, vol.51, pp.52-62, 2014.

M. Hyodo, Y. Wu, K. Nakashima, S. Kajiyama, and Y. Nakata, Influence of fines content on the mechanical behavior of methane hydrate-bearing sediments, Journal of geophysical research: solid earth, vol.122, issue.10, pp.7511-7524, 2017.

M. Hyodo, J. Yoneda, N. Yoshimoto, and Y. Nakata, Mechanical and dissociation properties of methane hydrate-bearing sand in deep seabed, Soils and foundations, vol.53, issue.2, pp.299-314, 2013.

P. Iassonov, T. Gebrenegus, and M. Tuller, Segmentation of x-ray computed tomography images of porous materials: A crucial step for characterization and quantitative analysis of pore structures, Water Resources Research, issue.9, p.45, 2009.

P. V. Jakobsen, Focus on the cnn effect misses the point: The real media impact on conflict management is invisible and indirect, Journal of Peace Research, vol.37, issue.2, pp.131-143, 2000.

M. Jiang, H. Chen, M. Tapias, M. Arroyo, and R. Fang, Study of mechanical behavior and strain localization of methane hydrate bearing sediments with different saturations by a new dem model, Computers and Geotechnics, vol.57, pp.122-138, 2014.

M. Jiang, Y. Sun, Y. , and Q. , A simple distinct element modeling of the mechanical behavior of methane hydrate-bearing sediments in deep seabed, Granular Matter, vol.15, issue.2, pp.209-220, 2013.

S. Jin, J. Nagao, S. Takeya, Y. Jin, J. Hayashi et al., Structural investigation of methane hydrate sediments by microfocus x-ray computed tomography technique under high-pressure conditions, Japanese journal of applied physics, vol.45, issue.7L, p.714, 2006.

Y. Jin, Y. Konno, and J. Nagao, Growth of methane clathrate hydrates in porous media, Energy & fuels, vol.26, issue.4, pp.2242-2247, 2012.

A. Johnson, S. Patil, and A. Dandekar, Experimental investigation of gas-water relative permeability for gas-hydrate-bearing sediments from the mount elbert gas hydrate stratigraphic test well, alaska north slope. Marine and petroleum geology, vol.28, pp.419-426, 2011.

A. Judge, Natural gas hydrates in canada, Proceedings of the 4th Canadian Permafrost Conference, pp.320-328, 1982.

J. Jung, J. Jang, J. Santamarina, C. Tsouris, T. Phelps et al., Gas production from hydrate-bearing sediments: the role of fine particles, Energy & fuels, vol.26, issue.1, pp.480-487, 2011.

J. Jung, J. C. Santamarina, and K. Soga, Stress-strain response of hydrate-bearing sands: Numerical study using discrete element method simulations, Journal of geophysical research: solid earth, issue.B4, p.117, 2012.

A. Kaestner, E. Lehmann, and M. Stampanoni, Imaging and image processing in porous media research, Advances in Water Resources, vol.31, issue.9, pp.1174-1187, 2008.

A. Kato, Y. Nakata, M. Hyodo, Y. , and N. , Macro and micro behaviour of methane hydrate-bearing sand subjected to plane strain compression, Soils and foundations, vol.56, issue.5, pp.835-847, 2016.

P. Kerkar, K. W. Jones, R. Kleinberg, W. B. Lindquist, S. Tomov et al., Direct observations of three dimensional growth of hydrates hosted in porous media, Applied physics letters, vol.95, issue.2, p.24102, 2009.

P. B. Kerkar, K. Horvat, K. W. Jones, and D. Mahajan, Imaging methane hydrates growth dynamics in porous media using synchrotron x-ray computed microtomography, Geophysics, Geosystems, vol.15, issue.12, pp.4759-4768, 2014.

G. Khaddour, I. Riedel, E. Andò, P. Charrier, P. Bésuelle et al., Grain-scale characterization of water retention behaviour of sand using x-ray ct, Acta Geotechnica, vol.13, issue.3, pp.497-512, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01991422

S. Kimoto, F. Oka, and T. Fushita, A chemo-thermo-mechanically coupled analysis of ground deformation induced by gas hydrate dissociation, International Journal of Mechanical Sciences, vol.52, issue.2, pp.365-376, 2010.

A. Klar, K. Soga, and M. Ng, Coupled deformation-flow analysis for methane hydrate extraction, Geotechnique, vol.60, issue.10, pp.765-776, 2010.

K. A. Klein and J. C. Santamarina, Electrical conductivity in soils: Underlying phenomena, Journal of Environmental & Engineering Geophysics, vol.8, issue.4, pp.263-273, 2003.

T. J. Kneafsey, Examination of hydrate formation methods: trying to create representative samples, 2011.

T. J. Kneafsey, L. Tomutsa, G. J. Moridis, Y. Seol, B. M. Freifeld et al., Methane hydrate formation and dissociation in a partially saturated core-scale sand sample, Journal of Petroleum Science and Engineering, vol.56, issue.1-3, pp.108-126, 2007.

Y. Konno, T. Fujii, A. Sato, K. Akamine, M. Naiki et al., Key findings of the world's first offshore methane hydrate production test off the coast of japan: Toward future commercial production, Energy & Fuels, vol.31, issue.3, pp.2607-2616, 2017.

Y. Konno, T. Uchiumi, H. Oyama, Y. Jin, J. Nagao et al., Dissociation behavior of methane hydrate in sandy porous media below the quadruple point, Energy & Fuels, vol.26, issue.7, pp.4310-4320, 2012.

Y. Konno, J. Yoneda, K. Egawa, T. Ito, Y. Jin et al., Permeability of sediment cores from methane hydrate deposit in the eastern nankai trough. Marine and petroleum geology, vol.66, pp.487-495, 2015.

S. Kriminski, M. Kazmierczak, and R. Thorne, Heat transfer from protein crystals: implications for flash-cooling and x-ray beam heating, Acta Crystallographica Section D: Biological Crystallography, vol.59, issue.4, pp.697-708, 2003.

R. Kulkarni, M. Tuller, W. Fink, and D. Wildenschild, Three-dimensional multiphase segmentation of x-ray ct data of porous materials using a bayesian markov random field framework, Vadose Zone Journal, vol.11, issue.1, pp.0-0, 2012.

A. Kumar, B. Maini, P. Bishnoi, M. Clarke, O. Zatsepina et al., Experimental determination of permeability in the presence of hydrates and its effect on the dissociation characteristics of gas hydrates in porous media, Journal of Petroleum Science and Engineering, vol.70, issue.1-2, pp.114-122, 2010.

T. Kwon, G. Cho, and J. C. Santamarina, Gas hydrate dissociation in sediments: Pressure-temperature evolution, Geochemistry, Geophysics, Geosystems, issue.3, p.9, 2008.

T. X. Le, P. Aimedieu, M. Bornert, B. Chabot, S. Rodts et al., Effect of temperature cycle on mechanical properties of methane hydrate-bearing sediment, Soils and Foundations, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02504078

T. X. Le, S. Rodts, D. Hautemayou, P. Aimedieu, M. Bornert et al., Kinetics of methane hydrate formation and dissociation in sand sediment, Geomechanics for Energy and the Environment, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02171357

T. X. Le, A. M. Tang, P. Aimedieu, M. Bornert, B. Chabot et al., Methane hydrate-bearing sand-an energy resource?, Vietnam Symposium on Advances in Offshore Engineering, pp.158-163, 2018.

M. Lee, D. Hutchinson, T. Collett, and W. P. Dillon, Seismic velocities for hydratebearing sediments using weighted equation, Journal of Geophysical Research: Solid Earth, vol.101, issue.B9, pp.20347-20358, 1996.

M. W. Lee and T. S. Collett, Elastic properties of gas hydrate-bearing sediments, Geophysics, vol.66, issue.3, pp.763-771, 2001.

L. Lei, Z. Liu, Y. Seol, R. Boswell, and S. Dai, An investigation of hydrate formation in unsaturated sediments using x-ray computed tomography, Journal of Geophysical Research: Solid Earth, 2019.

L. Lei and J. Santamarina, Laboratory strategies for hydrate formation in fine-grained sediments, Journal of Geophysical Research: Solid Earth, vol.123, issue.4, pp.2583-2596, 2018.

L. Lei, Y. Seol, J. Choi, and T. J. Kneafsey, Pore habit of methane hydrate and its evolution in sediment matrix-laboratory visualization with phase-contrast micro-ct, Marine and Petroleum Geology, vol.104, pp.451-467, 2019.

J. Li, J. Ye, X. Qin, H. Qiu, N. Wu et al., The first offshore natural gas hydrate production test in south china sea, China Geology, vol.1, issue.1, pp.5-16, 2018.

Y. Li, P. Wu, W. Liu, X. Sun, Z. Cui et al., A microfocus x-ray computed tomography based gas hydrate triaxial testing apparatus, Review of Scientific Instruments, vol.90, issue.5, p.55106, 2019.

W. B. Lindquist, S. Lee, D. A. Coker, K. W. Jones, and P. Spanne, Medial axis analysis of void structure in three-dimensional tomographic images of porous media, Journal of Geophysical Research: Solid Earth, vol.101, issue.B4, pp.8297-8310, 1996.

X. Liu and P. B. Flemings, Dynamic multiphase flow model of hydrate formation in marine sediments, Journal of Geophysical Research: Solid Earth, issue.B3, p.112, 2007.

T. C. Mak and R. K. Mcmullan, Polyhedral clathrate hydrates. x. structure of the double hydrate of tetrahydrofuran and hydrogen sulfide, The Journal of Chemical Physics, vol.42, issue.8, pp.2732-2737, 1965.

B. R. Malagar, K. Lijith, and D. Singh, Formation & dissociation of methane gas hydrates in sediments: A critical review, Journal of Natural Gas Science and Engineering, 2019.

A. Masui, H. Haneda, Y. Ogata, and K. Aoki, The effect of saturation degree of methane hydrate on the shear strength of synthetic methane hydrate sediments, Proceedings of the 5th International Conference on Gas Hydrates, vol.2037, pp.657-663, 2005.

A. Masui, H. Haneda, Y. Ogata, and K. Aoki, Triaxial compression test on submarine sediment containing methane hydrate in deep sea off the coast off japan, Proceedings of the 41st Annual Conference, 2006.

?. Merey, Drilling of gas hydrate reservoirs, Journal of Natural Gas Science and Engineering, vol.35, pp.1167-1179, 2016.

P. J. Metaxas, V. W. Lim, C. Booth, J. Zhen, P. L. Stanwix et al., Gas hydrate formation probability distributions: Induction times, rates of nucleation and growth, Fuel, vol.252, pp.448-457, 2019.

H. Minagawa, Y. Nishikawa, I. Ikeda, K. Miyazaki, N. Takahara et al., Measurement of water permeability and pore-size distribution of methanehydrate-bearing sediments, 6th International Conference on Gas Hydrates, pp.6-10, 2008.

G. Moridis and T. Collett, Strategies for gas production from hydrate accumulations under various geologic conditions, 2003.

G. Moridis, S. Silpngarmlert, M. Reagan, T. Collett, and K. Zhang, Gas production from a cold, stratigraphically-bounded gas hydrate deposit at the mount elbert gas hydrate stratigraphic test well, alaska north slope: Implications of uncertainties. Marine and petroleum geology, vol.28, pp.517-534, 2011.

G. J. Moridis, Toward production from gas hydrates: current status, assessment of resources, and simulation-based evaluation of technology and potential, 2008.

G. J. Moridis and M. T. Reagan, Strategies for gas production from oceanic class 3 hydrate accumulations, 2007.

D. Müter, S. Pedersen, H. O. Sørensen, R. Feidenhans, and S. L. Stipp, Improved segmentation of x-ray tomography data from porous rocks using a dual filtering approach, Computers & geosciences, vol.49, pp.131-139, 2012.

V. Natarajan, P. Bishnoi, and N. Kalogerakis, Induction phenomena in gas hydrate nucleation, Chemical Engineering Science, vol.49, issue.13, pp.2075-2087, 1994.

N. N. Nguyen and A. V. Nguyen, The dual effect of sodium halides on the formation of methane gas hydrate, Fuel, vol.156, pp.87-95, 2015.

T. T. Nguyen, M. Bornert, C. Chateau, J. Yvonnet, and Q. Zhu, 3d detection of damage evolution in porous brittle cement or plaster based materials, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01308322

V. V. Nikitin, G. A. Dugarov, A. A. Duchkov, M. I. Fokin, A. A. Drobchik et al., Study of methane hydrate formation and selfpreservation using in-situ x-ray synchrotron tomography, 2019.

A. Nur, G. Mavko, J. Dvorkin, and D. Galmudi, Critical porosity: A key to relating physical properties to porosity in rocks, The Leading Edge, vol.17, issue.3, pp.357-362, 1998.

R. Ohmura, S. Matsuda, T. Uchida, T. Ebinuma, and H. Narita, Clathrate hydrate crystal growth in liquid water saturated with a guest substance: observations in a methane+ water system, Crystal growth & design, vol.5, issue.3, pp.953-957, 2005.

D. Paganin, S. C. Mayo, T. E. Gureyev, P. R. Miller, and S. W. Wilkins, Simultaneous phase and amplitude extraction from a single defocused image of a homogeneous object, Journal of microscopy, vol.206, issue.1, pp.33-40, 2002.

S. Pinkert, Rowe's stress-dilatancy theory for hydrate-bearing sand, International Journal of Geomechanics, vol.17, issue.1, p.6016008, 2016.

S. Pinkert and J. Grozic, Prediction of the mechanical response of hydrate-bearing sands, Journal of Geophysical Research: Solid Earth, vol.119, issue.6, pp.4695-4707, 2014.

P. Popenoe, E. Schmuck, W. Dillon, W. Schwab, H. Lee et al., The cape fear landslide: slope failure associated with salt diapirism and gas hydrate decomposition. Submarine Landslides-Selected Studies in the US Exclusive Economic Zone, pp.40-53, 1993.

J. A. Priest, A. I. Best, C. , and C. R. , A laboratory investigation into the seismic velocities of methane gas hydrate-bearing sand, Journal of geophysical research: solid earth, issue.B4, p.110, 2005.

J. A. Priest, E. V. Rees, C. , and C. R. , Influence of gas hydrate morphology on the seismic velocities of sands, Journal of geophysical research: solid earth, vol.114, issue.B11, 2009.

A. Reuss, Berechnung der fließgrenze von mischkristallen auf grund der plastizitätsbedingung für einkristalle, ZAMM-Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte Mathematik und Mechanik, vol.9, issue.1, pp.49-58, 1929.

T. Roose, S. D. Keyes, K. Daly, A. Carminati, W. Otten et al., Challenges in imaging and predictive modeling of rhizosphere processes, Plant and Soil, vol.407, issue.1-2, pp.9-38, 2016.

C. Ruppel, Tapping methane hydrates for unconventional natural gas, Elements, vol.3, issue.3, pp.193-199, 2007.

C. D. Ruppel and J. D. Kessler, The interaction of climate change and methane hydrates, Reviews of Geophysics, vol.55, issue.1, pp.126-168, 2017.

J. Rutqvist, G. Moridis, T. Grover, and T. Collett, Geomechanical response of permafrost-associated hydrate deposits to depressurization-induced gas production, Journal of petroleum science and engineering, vol.67, issue.1-2, pp.1-12, 2009.

M. B. Rydzy, The effect of hydrate formation on the elastic properties of unconsolidated sediment, 2014.

M. B. Rydzy and M. L. Batzle, Ultrasonic velocities in laboratory-formed gas hydratebearing sediments, 2010.

S. K. Sahoo, H. Marín-moreno, L. J. North, I. Falcon-suarez, B. N. Madhusudhan et al., Presence and consequences of coexisting methane gas with hydrate under two phase water-hydrate stability conditions, Journal of Geophysical Research: Solid Earth, vol.123, issue.5, pp.3377-3390, 2018.

M. Sánchez, X. Gai, and J. C. Santamarina, A constitutive mechanical model for gas hydrate bearing sediments incorporating inelastic mechanisms, Computers and Geotechnics, vol.84, pp.28-46, 2017.

J. C. Santamarina, S. Dai, M. Terzariol, J. Jang, W. F. Waite et al., Hydro-bio-geomechanical properties of hydrate-bearing sediments from nankai trough. Marine and petroleum geology, vol.66, pp.434-450, 2015.

S. Schlüter, A. Sheppard, K. Brown, and D. Wildenschild, Image processing of multiphase images obtained via x-ray microtomography: a review, Water Resources Research, vol.50, issue.4, pp.3615-3639, 2014.

S. Schlüter, U. Weller, and H. Vogel, Segmentation of x-ray microtomography images of soil using gradient masks, Computers & Geosciences, vol.36, issue.10, pp.1246-1251, 2010.

Y. Seol and T. J. Kneafsey, Methane hydrate induced permeability modification for multiphase flow in unsaturated porous media, Journal of Geophysical Research: Solid Earth, issue.B8, p.116, 2011.

P. Servio and P. Englezos, Morphology of methane and carbon dioxide hydrates formed from water droplets, AIChE Journal, vol.49, issue.1, pp.269-276, 2003.

H. Shin and J. C. Santamarina, Mineral dissolution and the evolution of k 0, Journal of Geotechnical and Geoenvironmental Engineering, vol.135, issue.8, pp.1141-1147, 2009.

E. D. Sloan, Gas hydrates: review of physical/chemical properties, Energy & Fuels, vol.12, issue.2, pp.191-196, 1998.

E. D. Sloan and C. A. Koh, Clathrate hydrates of natural gases, 2007.

K. Soga, S. Lee, M. Ng, and A. Klar, Characterisation and engineering properties of methane hydrate soils. Characterisation and engineering properties of natural soils, vol.4, pp.2591-1642, 2006.

B. Sowa, X. H. Zhang, P. G. Hartley, D. E. Dunstan, K. A. Kozielski et al., Formation of ice, tetrahydrofuran hydrate, and methane/propane mixed gas hydrates in strong monovalent salt solutions, Energy & Fuels, vol.28, issue.11, pp.6877-6888, 2014.

E. Spangenberg, J. Kulenkampff, R. Naumann, and J. Erzinger, Pore space hydrate formation in a glass bead sample from methane dissolved in water, Geophysical Research Letters, issue.24, p.32, 2005.

N. Sultan and S. Garziglia, Geomechanical constitutive modelling of gas-hydrate-bearing sediments, Proceedings of the 7th International Conference on Gas Hydrates, pp.17-21, 2011.

Z. Sun and J. C. Santamarina, Haines jumps: Pore scale mechanisms, Physical Review E, vol.100, issue.2, p.23115, 2019.

D. Swinehart, The beer-lambert law, Journal of chemical education, vol.39, issue.7, p.333, 1962.

X. H. Ta, T. S. Yun, B. Muhunthan, and T. Kwon, Observations of pore-scale growth patterns of carbon dioxide hydrate using x-ray computed microtomography, Geochemistry, Geophysics, Geosystems, vol.16, issue.3, pp.912-924, 2015.

B. Tohidi, R. Anderson, M. B. Clennell, R. W. Burgass, and A. B. Biderkab, Visual observation of gas-hydrate formation and dissociation in synthetic porous media by means of glass micromodels, Geology, vol.29, issue.9, pp.867-870, 2001.

B. Tohidi, A. Danesh, T. , and A. , On the mechanism of gas hydrate formation in subsea sediments. Preprints of Papers, Division of Fuel Chemistry, vol.42, issue.2, pp.485-487, 1997.

N. Tonnet and J. Herri, Methane hydrates bearing synthetic sediments-experimental and numerical approaches of the dissociation, Chemical Engineering Science, vol.64, issue.19, pp.4089-4100, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00411385

J. S. Tse, Dynamical properties and stability of clathrate hydrates, Annals of the New York Academy of Sciences, vol.715, issue.1, pp.187-206, 1994.

J. S. Tse and M. A. White, Origin of glassy crystalline behavior in the thermal properties of clathrate hydrates: a thermal conductivity study of tetrahydrofuran hydrate, The Journal of Physical Chemistry, vol.92, issue.17, pp.5006-5011, 1988.

D. Turner, J. Boxall, S. Yang, D. Kleehammer, C. Koh et al., Development of a hydrate kinetic model and its incorporation into the olga2000 R transient multiphase flow simulator, 5th International Conference on Gas Hydrates, pp.12-16, 2005.

S. Uchida, K. Soga, and K. Yamamoto, Critical state soil constitutive model for methane hydrate soil, Journal of Geophysical Research: Solid Earth, issue.B3, p.117, 2012.

T. Uchida, T. Ebinuma, J. Kawabata, and H. Narita, Microscopic observations of formation processes of clathrate-hydrate films at an interface between water and carbon dioxide, Journal of crystal growth, vol.204, issue.3, pp.348-356, 1999.

W. Waite, P. M. Bratton, and D. H. Mason, Laboratory formation of non-cementing, methane hydrate-bearing sands, Proceedings of the 7th International Conference on Gas Hydrates, 2011.

W. F. Waite, J. C. Santamarina, D. D. Cortes, B. Dugan, D. Espinoza et al., Physical properties of hydrate-bearing sediments, Reviews of geophysics, issue.4, p.47, 2009.

W. F. Waite, W. J. Winters, and D. Mason, Methane hydrate formation in partially watersaturated ottawa sand, American Mineralogist, vol.89, issue.8-9, pp.1202-1207, 2004.

H. Wallander and J. Wallentin, Simulated sample heating from a nanofocused x-ray beam, Journal of synchrotron radiation, vol.24, issue.5, pp.925-933, 2017.

S. Wang, P. Wang, B. Chen, M. Yang, L. et al., Velocity mapping of steady water flow through methane hydrate bearing samples, Journal of Natural Gas Science and Engineering, vol.53, pp.385-393, 2018.

D. Wildenschild and A. P. Sheppard, X-ray imaging and analysis techniques for quantifying pore-scale structure and processes in subsurface porous medium systems, Advances in Water Resources, vol.51, pp.217-246, 2013.

W. Winters, 40. stress history and geotechnical properties of sediment from the cape fear diapir, blake ridge diapir, and blake ridge, Proceedings of the Ocean Drilling Program. Scientific Results, pp.421-429, 2000.

L. Xiong, X. Li, Y. Wang, and C. Xu, Experimental study on methane hydrate dissociation by depressurization in porous sediments, Energies, vol.5, issue.2, pp.518-530, 2012.

C. Xu and X. Li, Research progress on methane production from natural gas hydrates, vol.5, pp.54672-54699, 2015.

K. Yamamoto, Overview and introduction: Pressure core-sampling and analyses in the 2012-2013 mh21 offshore test of gas production from methane hydrates in the eastern nankai trough, Marine and Petroleum Geology, vol.66, pp.296-309, 2015.

K. Yamamoto, X. Wang, M. Tamaki, and K. Suzuki, The second offshore production of methane hydrate in the nankai trough and gas production behavior from a heterogeneous methane hydrate reservoir, vol.9, pp.25987-26013, 2019.

L. Yang, A. Falenty, M. Chaouachi, D. Haberthür, and W. F. Kuhs, Synchrotron x-ray computed microtomography study on gas hydrate decomposition in a sedimentary matrix, Geochemistry, Geophysics, Geosystems, vol.17, issue.9, pp.3717-3732, 2016.

L. Yang, J. Zhao, W. Liu, Y. Li, M. Yang et al., Microstructure observations of natural gas hydrate occurrence in porous media using microfocus x-ray computed tomography, Energy & Fuels, vol.29, issue.8, pp.4835-4841, 2015.

S. H. Yang, P. Babu, S. F. Chua, and P. Linga, Carbon dioxide hydrate kinetics in porous media with and without salts, Applied energy, vol.162, pp.1131-1140, 2016.

J. Yoneda, Y. Jin, J. Katagiri, and N. Tenma, Strengthening mechanism of cemented hydrate-bearing sand at microscales, Geophysical Research Letters, vol.43, issue.14, pp.7442-7450, 2016.

J. Yoneda, A. Masui, Y. Konno, Y. Jin, K. Egawa et al., Mechanical properties of hydrate-bearing turbidite reservoir in the first gas production test site of the eastern nankai trough, Marine and Petroleum Geology, vol.66, pp.471-486, 2015.

J. Yoneda, A. Masui, Y. Konno, Y. Jin, M. Kida et al., Pressure-core-based reservoir characterization for geomechanics: Insights from gas hydrate drilling during 2012-2013 at the eastern nankai trough, Marine and Petroleum Geology, vol.86, pp.1-16, 2017.

M. Yousif, H. Abass, M. Selim, and E. Sloan, Experimental and theoretical investigation of methane-gas-hydrate dissociation in porous media, SPE reservoir Engineering, vol.6, issue.01, pp.69-76, 1991.

T. S. Yun, J. C. Santamarina, and C. Ruppel, Mechanical properties of sand, silt, and clay containing tetrahydrofuran hydrate, Journal of geophysical research: solid earth, issue.B4, p.112, 2007.

O. Y. Zatsepina and B. Buffett, Thermodynamic conditions for the stability of gas hydrate in the seafloor, Journal of Geophysical Research: Solid Earth, vol.103, issue.B10, pp.24127-24139, 1998.

L. Zhang, L. Sun, M. Sun, X. Lv, H. Dong et al., Analyzing spatially and temporally visualized formation behavior of methane hydrate in unconsolidated porous media, Magnetic resonance imaging, 2019.

L. Zhang, J. Zhao, H. Dong, Y. Zhao, Y. Liu et al., Magnetic resonance imaging for in-situ observation of the effect of depressurizing range and rate on methane hydrate dissociation, Chemical Engineering Science, vol.144, pp.135-143, 2016.

J. Zhao, Q. Lv, Y. Li, M. Yang, W. Liu et al., In-situ visual observation for the formation and dissociation of methane hydrates in porous media by magnetic resonance imaging, Magnetic resonance imaging, vol.33, issue.4, pp.485-490, 2015.

J. Zhao, L. Yang, Y. Liu, and Y. Song, Microstructural characteristics of natural gas hydrates hosted in various sand sediments, Physical Chemistry Chemical Physics, vol.17, issue.35, pp.22632-22641, 2015.

J. Zhao, L. Yang, K. Xue, W. Lam, Y. Li et al., In situ observation of gas hydrates growth hosted in porous media, Chemical Physics Letters, vol.612, pp.124-128, 2014.

M. Zimmer, Seismic velocities in unconsolidated sands: Measurements of pressure, sorting, and compaction effects, 2003.