References

American Society for Testing and Materials, 2004, D 5334-00 Standard test method for determination of thermal conductivity of soil and soft rock by thermal needle probe method, in Annual Book of ASTM Standards, edited: ASTM International, West Conshohocken, Penn., p. 1217-1222.

BASF Corporation, 1998, Tetrahydrofuran (THF) Storage and Handling, Mount Olive, N.J. Online at www.basf.com: search word "THF".

Blackwell, J.H., 1954, A transient-flow method for determination of thermal constants of insulating materials in bulk: Part 1 - Theory, J. Applied Physics, v. 25, p. 137-144.

Bohrmann, G., Greinert, J., Suess, E. and Torres, M., 1998, Authigenic carbonates from the Cascadia subduction zone and their relation to gas hydrate stability: Geology, v. 26, p. 647-650.

Briaud, J.L., and Chaouch, A. 1997, Hydrate melting in soil around hot conductor: Journal of Geotechnical and Geoenvironmental Engineering, v. 123, p. 645-653.

Clauser, C. and Huenges, E., 1995, Thermal conductivity of rocks and minerals, Rock Physics and Phase Relations; A Handbook of Physical Constants: Washington D.C., American Geophysical Union, p. 105-126.

Cook, J.G., Laubitz, M.J., 1981, The thermal conductivity of two clathrate hydrates: Proceedings 17th International Thermal Conductivity Conference, Gaithersburg, Md.

Cook, J.G., Leaist, D.G., 1983, An exploratory study of the thermal conductivity of methane hydrate: Geophysical Research Letters, v. 10, p. 397-399.

Davidson, D.W., 1972, in Franks, F., ed., Water, A Comprehensive Treatise: Plenum, New York, p. 115.

Davie, M.K., Zatsepina, O.Y., Buffett, B.A., 2004, Methane solubility in marine hydrate environments: Marine Geology, v. 203, p. 177-184.

deMartin, B.J., 2001, Laboratory measurements of the thermal conductivity and thermal diffusivity of methane hydrate at simulated in situ conditions: Masters thesis, Georgia Institute of Technology, Atlanta, Ga., 135 p.

Ji, C., Ahmadi, G., and Smith, D.H., 2003, Constant rate natural gas production from a well in a hydrate reservoir: Energy Conversion and Management, v. 44, p. 2403-2423.

Glatzmaier, G.C., and Ramirez, W.F., 1985, Simultaneous measurement of thermal conductivity and thermal diffusivity of unconsolidated materials by the transient hot wire method, Review of Scientific Instruments, v. 56, p. 1394-1398.

Grant, S.A., 2000, Physical and Chemical Factors Affecting Contaminant Hydrology in Cold Environments: U.S. Army Cold Regions Research and Engineering Laboratory, Springfield, Virg., 37 p.

Grevemeyer, I., and Villinger, H., 2001, Gas hydrate stability and the assessment of heat flow through continental margins: Geophysical Journal International, v. 145, p. 647-660.

Hammerschmidt, U., 2005, Simultaneous Measurement of Thermal Conductivity, Thermal Diffusivity, and Volumetric Specific Heat: Thermal Conductivity, v. 27, p. 313-327.

Handa, Y.P., 1986, Compositions, enthalpies of dissociation, and heat capacities in the range 85 to 270 K for clathrate hydrates of methane, ethane, and propane, and enthalpy of dissociation of isobutane hydrate, as determined by a heat-flow calorimeter: Journal of Chemical Thermodynamics, v. 18, p. 915-921.

Helgerud, M.B., 2001, Wave speeds in gas hydrate and sediments containing gas hydrate; A laboratory and modeling study; Doctoral thesis: Stanford University, Palo Alto, 251 p. Online at http://srb.stanford.edu/Theses/Helgerud_82.pdf.

Hovland, M., and Gudmestad, O.T., 2001, Potential influence of gas hydrate on seabed installations, in C. K . Paull and W. P. Dillon, eds., Natural Gas Hydrates; Occurrence, Distribution and Detection: American Geophysical Union, Washington, D.C., p. 307-315.

Huang, D., and Fan, S., 2004, Thermal conductivity of methane hydrate formed from sodium dodecyl sulfate solution: Journal of Chemical and Engineering Data, v. 49, p. 1479-1482.

Huang, D. and Fan, S., 2005, Measuring and modeling thermal conductivity of gas hydrate-bearing sand: Journal of Geophysical Research, v. 110, p. B01311, doi:10.1029/2004JB003314.

Kennett, J.P., Cannariato, K .G., Hendy, I.L., Behl, R.J., 2003, Methane hydrates in Quaternary climate change; The clathrate gun hypothesis: American Geophysical Union, Washington D.C.

Kittel, C., and Kroemer, H., 1980, Thermal Physics (2nd ed.): W.H. Freeman & Co., New York, 473 p.

Kumar, P., Turner, D., and Sloan, E.D., 2004, Thermal diffusivity measurements of porous methane hydrate and hydrate-sediment mixtures: Journal of Geophysical Research, v. 109, p. B01207, doi:10.1029 /2003JB002763.

Leaist, D.G., Murray, J.J., Post, M.L., and Davidson, D.W., 1982, Enthalpies of decomposition and heat capacities of ethylene oxide and tetrahydrofuran hydrates: Journal of Physical Chemistry, v. 86, p. 4175-4178.

Lunardini, V.J., 1981, Heat Transfer in Cold Climates: Van Nostrand Reinhold Company, New York, p. 309.

Matsumoto, R., Uchida, T., Waseda, A., Uchida, T., Takeya, S., Hirano, T., Yamada, K ., Maeda, Y., Okui, T., 2000, Occurrence, structure, and composition of natural gas hydrate recovered from the Blake Ridge, Northwest Atlantic, in Paull, C.K., Matsumoto, R., Wallace, P.J., and Dillon, W.P., eds., Proceedings Ocean Drilling Program: Scientific Results, v. 164, College Station, Tex., p. 13-25.

Nagasaka, Y., and Nagashima, A., 1981, Simultaneous measurement of the thermal conductivity and the thermal diffusivity of liquids by the transient hot-wire method: Review of Scientific Instruments, v. 52, p. 229-232.

National Research Council, 2004, Charting the future of methane hydrate research in the United States: The National Academies Press, Washington, D.C., 192 p.

Pooladi-Darvish, M., (2004), Gas production from hydrate reserves and its modeling: Journal of Petroleum Technology, v. 56, p. 65-71.

Ratcliffe, E. H., 1960, The thermal conductivities of ocean sediments: Journal of Geophysical Research, v. 65, p. 1535-1541.

Revil, A., 2000, Thermal conductivity of unconsolidated sediments with geophysical applications: Journal of Geophysical Research, v. 105, p. 16749-16768.

Ross, R.G., Andersson, P., Backstrom, G., 1978, Effects of H and D order on the thermal conductivity of ice phases: Journal of Chemical Physics, v. 68, p. 3967-3971.

Ross, R.G., and Andersson, P., 1982, Clathrate and other solid phases in the tetrahydrofuran-water system; thermal conductivity and heat capacity under pressure: Canadian Journal of Chemistry, v. 60, p. 881-892.

Ruppel, C.D., 2000, Thermal state of the gas hydrate reservoir, in M. D. Max, ed., Natural Gas Hydrate In Oceanic and Permafrost Environments: Kluwer Academic Publishers, Dordrecht, Netherlands (NLD), p. 29-42.

Sloan, E.D. Jr., 1998, Clathrate Hydrates of Natural Gases (2nd ed.): Marcel Dekker, Inc., New York.

Shpakov, V.P., Tse, J.S., Tulk, C.A., Kvamme, B. and Belosludov, V.R., 1998, Elastic moduli calculation and instability in structure I methane clathrate hydrate, Chemical Physics Letters, v. 282, p. 107-114.

Stern, L. A., Kirby, S.H., and Durham, W.B., 1996, Peculiarities of methane clathrate hydrate formation and solid-state deformation, including possible superheating of water ice: Science, v. 273, p. 1843-1848.

Stern, L., Kirby, S.H., and Durham, W.B., 1998, Polycrystalline methane hydrate; Synthesis from superheated ice, and low-temperature mechanical properties: Energy and Fuels, v. 12, p. 201-211.

Stern, L., Kirby, S.H., Durham, W., Circone, S., and Waite, W.F., 2000, Laboratory synthesis of pure methane hydrate suitable for measurement of physical properties and decomposition behavior, in M. D. Max, ed., Natural Gas Hydrate in Oceanic and Permafrost Environments: Kluwer Academic Publishers, Netherlands, p. 323-348

Stoll, R.D., G.M. Bryan, 1979, Physical properties of sediments containing gas hydrates: Journal of Geophysical Research, v. 84, p. 1629-1634.

Subramanian, S., Sloan, E.D., 2002, Solubility Effects on Growth and Dissolution of Methane Hydrate Needles: Proceedings of the Fourth International Conference on Gas Hydrates, Yokohama, May 19-23, 2002, p. 856-861.

Tse, J.S., 1987, Thermal expansion of the clathrate hydrates of ethylene oxide and Tetrahydrofuran, Journal De Physique, v. 48, p. 543-549.

Tse, J.S., White, M.A., 1988, Origin of glassy crystalline behavior in the thermal properties of clathrate hydrates; A thermal conductivity study of Tetrahydrofuran hydrate: Journal of Physical Chemistry, v. 92, p. 5006-5011.

Turner, D.J., Kumar, P., and Sloan, E.D., 2005, New technique for hydrate thermal diffusivity measurements: International Journal of Thermophysics, v. 26, p. 1681-1691.

U.S. Army Corps of Engineers, 1996, Engineering & Design - Ice Engineering: Manual No. 1110-2-1612, Washington D.C., p. 2-2.

Vargaftik, N.B., Filippov, L.P., Tarzimanov, V, Totskii, E.E., 1993, Handbook of Thermal Conductivity of Liquids and Gases: CRC Press, Inc., Boca Raton.

von Herzen, R.P., and Maxwell, A.E. , 1959, The measurement of thermal conductivity of deep-sea sediments by a needle probe method: Journal of Geophysical Research, v. 64, p. 1557-1563.

Waite, W.F., deMartin, B.J., Kirby, S.H., Pinkston, J., and Ruppel, C.D., 2002, Thermal conductivity measurements in porous mixtures of methane hydrate and quartz sand: Geophysical Research Letters, v. 29, p. 2229, doi:10.1029/2002GL015988.

Waite, W.F., Gilbert, L.Y., Winters, W.J. and Mason, D.H., 2005, Thermal property measurements in Tetrahydrofuran (THF) hydrate and hydrate-bearing sediment between -25 and +4°C, and their application to methane hydrate, Paper 5042, in Fifth International Conference on Gas Hydrates, Trondheim, Norway, Tapir Academic Press, v. 5, p. 1724-1733.

Waite, W.F., Gilbert, L.Y., Winters, W.J., and Mason, D.H., 2006, Estimating thermal diffusivity and specific heat from needle probe thermal conductivity data, Review of Scientific Instruments, v. 77, p. 044904, doi:10.1063/1.2194481.

Waite, W.F., Stern, L.A., Kirby, S.H., Winters, W.J. and Mason, D.H., 2007, Simultaneous determination of thermal conductivity, thermal diffusivity and specific heat in sI methane hydrate: Geophysical Journal International, v. 169, p. 767-774, doi: 10.1111 /j.1365-246X.2007.03382.x.

Weast, R.C., 1987, CRC Handbook of Chemistry and Physics (68 ed.): CRC Press, Inc., Boca Raton.

Woodside, W., and Messmer, J.H., 1961, Thermal conductivity of porous media; I. Unconsolidated sands: Journal of Applied Physics, v. 32, p. 1688-1699.

Xu, W., and Germanovich, L.N., 2006, Excess pore pressure resulting from methane hydrate dissociation in marine sediments; A theoretical approach: Journal of Geophysical Research, v. 111, p. B01104, doi:10.1029/2004JB003600.