E. D. Sloan and C. A. Koh, Clathrate hydrates of natural gases, 2008.

C. A. Cardoso, M. A. Gonc?alves, and R. M. Camargo, Design options for avoiding hydrates in deep offshore production, J. Chem. Eng. Data, vol.60, pp.330-335, 2015.

A. Mersmann, Crystallization Technology Handbook -Second Edition Revised and Expanded, 2001.

B. H. Shi, J. Gong, C. Y. Sun, J. K. Zhao, Y. Ding et al., An inward and outward natural gas hydrates growth shell model considering intrinsic kinetics, mass and heat transfer, Chem. Eng. J, vol.171, pp.1308-1316, 2011.

D. Kashchiev and A. Firoozabadi, Induction time in crystallization of gas hydrates, J. Cryst. Growth, vol.250, pp.499-515, 2003.

P. Englezos, N. Kalogerakis, P. D. Dholabhai, and P. R. Bishnoi, Kinetics of formation of methane and ethane gas hydrates, Chem. Eng. Sci, vol.42, p.87015, 1987.

J. M. Herri, J. S. Pic, F. Gruy, and M. Cournil, Methane hydrate crystallization mechanism from insitu particle sizing, AIChE J, vol.45, pp.590-602, 1999.
URL : https://hal.archives-ouvertes.fr/emse-00502952

T. P. Sampaio, F. W. Tavares, and P. L. Lage, Non-isothermal population balance model of the formation and dissociation of gas hydrates, Chem. Eng. Sci, vol.163, pp.234-254, 2017.

A. Vysniauskas and P. R. Bishnoi, A kinetic study of methane hydrate formation, Chem. Eng. Sci, vol.38, pp.1061-1072, 1983.

D. J. Turner, K. T. Miller, and E. Sloan, Methane hydrate formation and an inward growing shell model in water-in-oil dispersions, Chem. Eng. Sci, vol.64, pp.3996-4004, 2009.

C. L. Bassani, F. A. Barbuto, A. K. Sum, and R. E. Morales, A three-phase solid-liquid-gas slug flow mechanistic model coupling hydrate dispersion formation with heat and mass transfer, Chem. Eng. Sci, vol.178, pp.222-237, 2018.

C. L. Bassani, F. H. Pereira, F. A. Barbuto, and R. E. Morales, Evaluation of the gas contribution to the momentum and energy balances for liquid-gas slug flows in high pressure scenarios using a mechanistic approach, IV Journeys Multiph. Flows, ABCM, pp.2017-2033, 2017.

A. Hirata and Y. H. Mori, How liquids wet clathrate hydrates: some macroscopic observations, Chem. Eng. Sci, vol.53, pp.2641-2643, 1998.

S. Arirachakaran, K. D. Oglesby, M. S. Malinowsky, O. Shoham, and J. P. Brill, An analysis of oil/water flow phenomena in horizontal pipes, p.18836, 1989.

Y. Taitel and D. Barnea, A consistent approach for calculating pressure drop in inclined slug flow, Chem. Eng. Sci, vol.45, pp.87113-87120, 1990.

C. L. Bassani, F. H. Pereira, F. A. Barbuto, and R. E. Morales, Modeling the scooping phenomenon for the heat transfer in liquid-gas horizontal slug flows, Appl. Therm. Eng, vol.98, pp.862-871, 2016.

I. M. Krieger and T. J. Dougherty, A mechanism for non-newtonian flow in suspensions of rigid spheres, Trans. Soc. Rheol, vol.3, pp.137-152, 1959.

R. Schulkes, 15th Int. Conf. Multiph. Prod. Technol., BHR Group, pp.311-325, 2011.

K. H. Bendiksen, An experimental investigation of the motion of long bubbles in inclined tubes, Int. J. Multiph. Flow, vol.10, pp.467-483, 1984.

L. E. Gomez, O. Shoham, and Y. Taitel, Prediction of slug liquid holdup: Horizontal to upward vertical flow, Int. J. Multiph. Flow, vol.26, pp.517-521, 2000.

F. D. Al-otaibi, Kinetic studies of gas hydrate formation using in situ particles size analysis and Raman spectroscopy, 2009.

S. Sharma, Gas hydrate particle size measurements, 1996.

S. A. Klapp, S. Hemes, H. Klein, G. Bohrmann, I. Macdonald et al., Grain size measurements of natural gas hydrates, Mar. Geol, vol.274, pp.85-94, 2010.

A. Melchuna, A. Cameirao, J. M. Herri, and P. Glenat, Topological modeling of methane hydrate crystallization from low to high water cut emulsion systems, Fluid Phase Equilib, vol.413, pp.158-169, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01235142

K. D. Total, Safety Data Sheet, vol.75, 2015.

A. M. Melchuna, Experimental study and modeling of methane hydrates crystallization under flow from emulsions with variable fraction of water and anti-agglomerant, 2016.

R. B. Bird, W. E. Stewart, and E. N. Lightfoot, Transport Phenomena, 2002.

R. Sander, Compilation of Henry's law constants (version 4.0) for water as solvent, Atmos. Chem. Phys, vol.15, pp.4399-4981, 2015.

J. W. Jung, D. N. Espinoza, and J. C. Santamarina, Properties and phenomena relevant to CH4-CO2 replacement in hydrate-bearing sediments, J. Geophys. Res. Solid Earth, vol.115, p.10102, 2010.

E. W. Lemmon, M. L. Huber, and M. O. Mclinden, Software: REFPROP Reference Fluid Thermodynamic and Transport Properties, 2013.

U. Setzmann and W. Wagner, A New Equation of State and Tables of Thermodynamic Properties for Methane Covering the Range from the Melting Line to 625 K at Pressures up to 1000 MPa, J. Phys. Chem. Ref. Data, vol.20, pp.1061-1155, 1991.

, The Engineering Toolbox, Diffusion coefficients of gases in water, January, vol.17, 2019.

R. W. Fox, P. J. Pritchard, and A. T. Mcdonald, Fox and McDonald's Introduction to Fluid Mechanics, 2011.

V. Gnielinski, New equations for heat and mass transfer in turbulent pipe and channel flow, Int. Chem. Eng, vol.16, pp.359-368, 1976.