A GLOBAL OUTLOOK ON METHANE GAS HYDRATES
81
McConnell, D., Zhang, Z., Boswell, R., 2012. Review of progress in
evaluating gas hydrate drilling hazards. J. Mar. Pet. Geol., 34, 209-224.
McGrail, B.P., Schaef, H.T., White, M.D., Zhu, T., Kulkami, A.S., Hunter,
R.B., Patil, S.L., Owen, A.T., and Martin, P.F. (2007). Using carbon
dioxide to enhance recovery of methane from gas hydrate reservoirs.
Final Summary Report Prepared for the U.S. Department of Energy
under Contract DE-AC06-76RLO 1830.
Minagawa, H., Ohmura, R., Kamata, Y., Nagao, J., Ebinuma, T., Narita,
H., and Masuda, Y. (2009). Water permeability of porous media
containing methane hydrate as controlled by the methane-hydrate
growth process. In Natural gas hydrates – Energy resource potential
and associated geologic hazards, (T. Collett, A. Johnson, C. Knapp, and
R. Boswell, eds.) AAPG Memoir 89, 734–739.
Moridis, G., Reagan, M., 2014. Response of a gas-producing hydrate
deposit following a well-shut in. DOE/FITI v.14, n. 1, 6-8.
Moridis, G.J., and M.T. Reagan, (2007a), Strategies for Gas Production
FromOceanic Class 3 Hydrate Accumulations, paper OTC-18865, 2007
Offshore Technology Conference, Houston, Texas, 30 April – 3 May.
Moridis, G.J., and M.T. Reagan, (2007b), Gas Production From Oceanic
Class 2 Hydrate Accumulations, paper OTC-18866, 2007 Offshore
Technology Conference, Houston, Texas, 30 April – 3 May 2007.
Moridis, G.J., M. Kowalsky and K. Pruess, (2007), Depressurization-
Induced Gas Production From Class 1 Hydrate Deposits, SPE Journal
of Reservoir Evaluation & Engineering, 10(5), 458-481.
Moridis, G.J., T.S. Collett, R. Boswell, M. Kurihara, M.T. Reagan, C.
Koh and E.D. Sloan, (2009), Toward Production From Gas Hydrates:
Current Status, Assessment of Resources, and Simulation-Based
Evaluation of Technology and Potential, SPE Reservoir Evaluation &
Engineering, 12(5): 745-771.
Moridis, G.J., T.S. Collett, M. Pooladi-Darvish, S. Hancock, C.
Santamarina, R. Boswell, T. Kneafsey, J. Rutqvist, M. Kowalsky,
M.T. Reagan, E.D. Sloan, A.K. Sum and C. Koh, (2011), Challenges,
Uncertainties and Issues Facing Gas Production From Gas Hydrate
Deposits, SPE Res. Eval. & Eng., 14(1), 76-112.
Moridis, G.J., and E.D. Sloan, (2007), Gas Production Potential
of Disperse Low-Saturation Hydrate Accumulations in Oceanic
Sediments, Journal of Energy Conversion and Management, 48(6),
1834-1849.
Moridis, G.J., J. Kim, M.T. Reagan, and S.-J. Kim, (In press), Feasibility
of gas production from a gas hydrate accumulation at the UBGH2-6
site of the Ulleung basin in the Korean East Sea, Journal of Petroleum
Science and Engineering, In Press
(http://dx.doi.org/10.1016/j.petrol.2013.03.002).
Nagakubo, S., Arata, N., Yabe, I., Kobayashi, H., and Yamamoto, K.( 2011).
Environmental impact assessment study on Japan’s methane hydrate
R&D program. Fire in the Ice Newsletter 10(3), USDOE- NETL, 4-11.
NETL. (2012). Ignik Sikumi gas hydrate field trial completed. Fire in the
Ice Newsletter 12(1), USDOE-NETL, 1-3.
NGI. (2005). Offshore geohazards. Summary Report Research institute-
based strategic project 2002-2005. NGI Report 200221023-2., 72p.
Nimblett, J.N.,. Shipp, R.C, and Strijbos, F. (2005). Gas hydrate as a
drilling hazard: Examples from global deepwater settings. Proceedings,
Offshore Technology Conference 2 May-5 May, 2005, Houston, Texas.
Park, K.-P, Bahk, J.-J., Kwon, Y., Kim, G.-Y., Riedel, M., Holland, M.,
Schultheiss, P., Rose, K., and the UBGH-1 Scientific Party. (2008).
Korean national program expedition confirms rich gas hydrate
deposits in the Ulleung Basin, East Sea. Fire in the Ice Newsletter
8(2), DOE-NETL, 6-9.
Peters, D., Hatton, G., Mehta, A., and Hadley, C. (2008). Gas hydrate
geohazards in shallow sediments and their impact on the design of
subsea systems. Proceedings, 6th International Conference on Gas
Hydrates (ICGH 2008), Vancouver, British Columbia, Canada, July
6-10, 2008.
Riedel, M., Collett, T.S., Malone, M.J., and Expedition 311 Scientists.
(2006a). Proc. Integrated Ocean Drilling Program, IODP 311,
Washington, D.C. doi:10.2204/iodp.proc.311.2006.
Riedel, M., Novosel, I., Spence, G.D., Hyndman, R.D., Chapman, R.N.,
Solem, R.C., and Lewis, T. (2006b). Geophysical and geochemical
signatures associated with gas hydrate-related venting in the northern
Cascadia margin. Geological Society of America Bulletin 118, 23-38.
Rutqvist, J., and Moridis, G. (2008). Development of a numerical
simulator for analyzing the geomechanical performance of hydrate-
bearing sediments, paper 139. Proceedings, 42th U.S. Rock Mechanics
Symposium, San Francisco, California, USA, June 29-July 2, 2008.
Rutqvist, J., Grover, T., and Moridis, G. (2008). Coupled hydrological,
thermal and geomechanical analysis of wellbore stability in hydrate-
bearing sediments, OTC 19672. Proceedings, 2008 Offshore
Technology Conference, Houston, 4-8 May 2008.
Rutqvist, J., and G.J. Moridis, (2009), Numerical studies on the
geomechanical stability of hydrate-bearing sediments, SPE Journal,
14(2): 267-282.
Rutqvist, J. and G.J. Moridis, (2012), Coupled Multiphase Fluid Flow
and Wellbore Stability Analysis Associated with Gas Production from
Oceanic Hydrate-Bearing Sediments, Journal of Petroleum Science
and Engineering, 92-93, 65-81.
Rutqvist, J., G.J. Moridis, T. Grover, and T. Collett, (2009),
Geomechanical response of permafrost-associated hydrate deposits
to depressurization-induced gas production, Journal of Petroleum
Science and Engineering, 67:1-12.
Sassen, R., Sweet, S.T., Milkov, A.V., DeFreitas, D.A. and Kennicutt, M.C.
(2001). Thermogenic vent gas and gas hydrate in the Gulf of Mexico
slope: Is gas hydrate decomposition significant? Geology 29(2), 107-110.
Schicks, J.M., Spangenberg, E., Giese, R., Steinhauer, B., Klump, J. and
Luzi, M. (2011). New approaches for the production of hydrocarbons
from hydrate bearing sediments. Energies 4(1), 151-172. doi:10.3390/
en4010151.