Lattice expansion of clathrate hydrates of methane mixtures and natural gas
Angew. Chem. Int. Ed., 44, 6928
|
|
2005-05 |
Structure and thermal expansion of natural gas clathrate hydrates
Chem. Eng. Sci., 61, 2670
|
|
2006-01 |
Coexistence of structure I and II gas hydrates in Lake Baikal suggesting gas sources from microbial and thermogenic origin
Geophys. Res. Lett., 33, L24603
|
|
2006-12 |
Estimation of gas composition and cage occupancies in CH4 - C2H6 Hydrates by CP-MAS 13C NMR Technique
J. Jpn. Petrol. Inst., 50, 132
|
|
2007-05 |
Isotopic fractionation of methane and ethane hydrates between gas and hydrate phases
Geophys. Res. Lett., 34, L21502
|
|
2007-11 |
First discovery and formation process of authigenic siderite from gas hydrate-bearing mud volcanoes in fresh water: Lake Baikal, Eastern Siberia
Geophys. Res. Lett., 35, L05405
|
|
2008-03 |
Crystallization of Authigenic Carbonates in Mud Volcanoes at Lake Baikal
Geochem. Int., 46, 985
|
|
2008-10 |
Natural gas hydrates with locally different cage occupancies and hydration numbers in Lake Baikal
Geochem. Geophys. Geosyst., 10, Q05003
|
|
2009-05 |
Characteristics of natural gas hydrates occurring in pore-spaces of marine sediments collected from the eastern Nankai Trough, off Japan
Energy & Fuels, 23, 5580
|
|
2009-09 |
Model of formation of double structure gas hydrates in Lake Baikal based on isotopic data
Geophys. Res. Lett., 36, L18504
|
|
2009-09 |
Molecular and isotopic characteristics of gas hydrate-bound hydrocarbons in southern and central Lake Baikal
Geo-Mar.Lett., 30, 321
|
|
2010-06 |
Isotopic composition of dissolved inorganic carbon in subsurface sediments of gas hydrate-bearing mud volcanoes, Lake Baikal: implications for methane and carbonate origin
Geo-Mar.Lett., 30, 427
|
|
2010-06 |
Dissociation behavior of methane–ethane mixed gas hydrate coexisting structures I and II
J. Phys. Chem. A, 114, 35, 9456
|
|
2010-09 |
Symmetric Stretching Vibration of CH4 in Clathrate Hydrate Structures
ChemPhysChem, 11, 14, 3070
|
|
2010-10 |
13C chemical shifts of propane molecules encaged in structure II clathrate hydrate
J. Phys. Chem. A, 115, 5, 643
|
|
2011-02 |
Dissociation termination of methane-ethane mixed-gas hydrates in temperature-ramping test at atmospheric pressure below ice melting point
ChemPhysChem, 12, 1652
|
|
2011-04 |
Effective Control of Gas Hydrate Dissociation above the Melting Point of Ice
Phys. Chem. Chem. Phys., 13, 18481
|
|
2011-09 |
Phase Equilibrium Conditions for Clathrate Hydrates of Tetra-n-butylammonium Bromide (TBAB) and Xenon
J. Chem. Eng. Data, 57, 6, 1829
|
|
2012-06 |
Microscopic equilibrium determination for structure-H (sH) clathrate hydrates at the liquid–liquid interface: Krypton–liquid hydrocarbon–water system
J. Chem. Eng. Data, 57, 9, 2614
|
|
2012-09 |
Raman spectroscopic and calorimetric observations on natural gas hydrates with cubic structures I and II obtained from Lake Baikal
Geo-Mar.Lett., 32, 419
|
|
2012-12 |
Thermal anomalies associated with shallow gas hydrates in the K-2 mud volcano, Lake Baikal
Geo-Mar.Lett., 32, 407
|
|
2012-12 |
Chemical shift changes and line narrowing in 13C NMR spectra of hydrocarbon clathrate hydrates
J. Phys. Chem. A, 117, 20, 4108
|
|
2013-04 |
Structure H (sH) Clathrate Hydrate with New Large Molecule Guest Substances
J. Phys. Chem. C, 117, 45, 23469
|
|
2013-11 |
Pressurization effects on methane hydrate dissociation
Jpn. J. Appl. Phys., 53, 1, 018003
|
|
2014-01 |
Crystal Phase Boundaries of Structure-H (sH) Clathrate Hydrates with Rare Gas (Krypton and Xenon) and Bromide Large Molecule Guest Substances
J. Chem. Eng. Data, 59, 5, 1704
|
|
2014-05 |
Structural Characterization of Structure H (sH) Clathrate Hydrates Enclosing Nitrogen and 2,2-Dimethylbutane
J. Phys. Chem. C, 119, 9069
|
|
2015-04 |
Contribution of water molecules to methane hydrate dissociation
Jpn. J. Appl. Phys., 54, 6, 065502
|
|
2015-05 |
Phase Equilibrium for Gas Hydrates Formed from Deuterium Oxide
J. Chem. Eng. Data, 60, 6, 1939
|
|
2015-05 |
Characterization of the ionic clathrate hydrate of tetra-n-butylammonium acrylate
Can. J. Chem., 93, 9, 954
|
|
2015-09 |
Lithological features of hydrate-bearing sediments and their relationship with gas hydrate saturation in the eastern Nankai Trough, Japan
Mar. Petrol. Geol., 66, 368
|
|
2015-09 |
Bulk sediment mineralogy of gas hydrate reservoir at the East Nankai offshore production test site
Mar. Petrol. Geol., 66, 379
|
|
2015-09 |
Chemical and crystallographic characterizations of natural gas hydrates recovered from a production test site in the eastern Nankai Trough
Mar. Petrol. Geol., 66, 396
|
|
2015-09 |
Effect of methane hydrate morphology on compressional wave velocity of sandy sediments: Analysis of pressure cores obtained in the eastern Nankai Trough
Mar. Petrol. Geol., 66, 425
|
|
2015-09 |
Mechanical behavior of hydrate-bearing pressure-core sediments visualized under triaxial compression
Mar. Petrol. Geol., 66, 451
|
|
2015-09 |
Mechanical properties of hydrate-bearing turbidite reservoir in the first gas production test site of the Eastern Nankai Trough
Mar. Petrol. Geol., 66, 471
|
|
2015-09 |
Permeability of sediment cores from methane hydrate deposit in the Eastern Nankai Trough
Mar. Petrol. Geol., 66, 487
|
|
2015-09 |
Dissociation behaviors of tetra-n-butylammonium bromide + tetra-n-butylammonium chloride mixed semi-clathrate hydrate systems
J. Chem. Thermodynamic., 90, 277
|
|
2015-11 |
Phase transition of tetra-n-butylammonium bromide hydrates enclosing krypton
J. Chem. Eng. Data, 61, 679
|
|
2016-01 |
Structural properties of methane and butane mixed-gas hydrates
Chem. Eng. Sci., 140, 10
|
|
2016-02 |
Thermal and Crystallographic Properties of tetra-n-Butylammonium Bromide + tetra-n-Butylammonium Chloride Mixed Semiclathrate Hydrates
J. Chem. Eng. Data, 61, 3334
|
|
2016-07 |
In situ methane hydrate morphology investigation: Natural gas hydrate-bearing sediment recovered from the eastern Nankai Trough area
Energy & Fuels, 30, 7, 5547
|
|
2016-07 |
Hydrate equilibrium conditions for water, diethylene glycol monoethyl ether acetate, and methane
J. Chem. Eng. Data, 61, 10, 3692
|
|
2016-10 |
Clathrate hydrate equilibrium in methane-water systems with the addition of monosaccharide and sugar alcohol
J. Chem. Eng. Data, 62, 440
|
|
2017-01 |
Pressure-core-based reservoir characterization for geomechanics: insights from gas hydrate drilling during 2012-2013 at the eastern Nankai Trough
Mar. Petrol. Geol., 86, 1
|
|
2017-01 |
Improvement of gas hydrate preservation by increasing compression pressure to simple hydrates of methane, ethane and propane
Jpn. J. Appl. Phys., 56, 9, 095601
|
|
2017-09 |
Permeability variation and anisotropy of gas hydrate-bearing pressure-core sediments recovered from the Krishna-Godavari Basin
Mar. Petrol. Geol.
|
|
2018-07 |
Hydration Numbers and Thermal Properties of Tetra-n-butyl Ammonium Bromide Semiclathrate Hydrates Determined by Ion Chromatography and Differential Scanning Calorimetry
J. Chem. Thermodynamic., 123, 32
|
|
2018-08 |
Numerical analysis of gas production potential from a gas-hydrate reservoir at Site NGHP-02-16, the Krishna–Godavari Basin, offshore India–Feasibility of depressurization method for ultra-deepwater environment
Mar. Petrol. Geol.
|
|
2018-08 |
Pressure core based onshore laboratory analysis on mechanical properties of hydrate-bearing sediments recovered during India's National Gas Hydrate Program Expedition (NGHP) 02
Mar. Petrol. Geol.
|
|
2018-09 |
Consolidation and hardening behavior of hydrate-bearing pressure-core sediments recovered from the Krishna–Godavari Basin, offshore India
Mar. Petrol. Geol.
|
|
2018-09 |
Crystallographic and geochemical properties of natural gas hydrates accumulated in the National Gas Hydrate Program Expedition 02 drilling sites in the Krishna-Godavari Basin off India
Mar. Petrol. Geol.
|
|
2018-10 |
Evaluation of failure modes and undrained shear strength by cone penetrometer for Natural Gas hydrate-bearing pressure-core sediment samples recovered from the Krishna–Godavari Basin, offshore India
Mar. Petrol. Geol.
|
|
2018-11 |
Lithological properties of natural gas hydrate–bearing sediments in pressure-cores recovered from the Krishna–Godavari Basin
Mar. Petrol. Geol.
|
|
2019-01 |
Changes in the 13C NMR spectra of tetra-n-butylammonium chloride by clathrate hydration
Chem. Phys.
|
|
2019-03 |
Crystal phase conditions on semi-clathrate hydrates in nitrogen–tetra-n-butylammonium bromide–water systems below 1 MPa
J. Chem. Eng. Data, 64, 2843
|
|
2019-05 |
Structure H clathrate hydrates in methane−halogenic large molecule substance−water systems
J. Phys. Chem. C, 123, 17170
|
|
2019-06 |
In situ mechanical properties of shallow gas hydrate deposits in the deep seabed
Geophysical Research Letters, 46, 24, 14459-14468
|
|
2019-12 |
Natural Gas Hydrates Recovered from the Umitaka Spur in the Joetsu Basin, Japan
ACS Earth Space Chem., 4, 1, 77-85
|
|
2020-01 |
Thermodynamic and Crystallographic Properties Depending on Hydration Numbers in Tetra-n-butylammonium Chloride Semiclathrate Hydrates
J. Chem. Thermodynamic.
|
|
2020-01 |
Upwarding gas source and postgenetic processes in the shallow sediments from the ARAON Mound, Chukchi Sea
Journal of Natural Gas Science & Engineering, 76, 103223
|
|
2020-02 |
CO2 capture from CH4–CO2 mixture by gas–solid contact with tetrahydrofuran clathrate hydrate
Chemical Physics, 538, 110863
|
|
2020-10 |
Mechanical properties of polycrystalline tetrahydrofuran hydrates as analogs for massive natural gas hydrates
Journal of Natural Gas Science & Engineering, 96, 104284
|
|
2021-12 |
Conformation Selectivity and Disharmony of the Lattice Constant Depending on the Guest Size in Clathrate Hydrates
The Journal of Physical Chemistry C, 126, 58-65
|
|
2022-01 |
Design of structure and relevant properties of semiclathrate hydrates by partly asymmetric alkylammonium salts
Phys. Chen. Chem. Phys., 24, 18198-18204
|
|
2022-07 |
Impact of high methane flux on the properties of pore fluid and methane-derived authigenic carbonate in the ARAON Mounds, Chukchi Sea
Frontiers in Marine Science, 9, 944841-1-15
|
|
2022-07 |
Clathrate Hydrates Coexisting Thiazole: Two Roles of Structure II Hydrate Former and Structure I Thermodynamic Inhibitor
Energy & Fuels, 3, 2467–2474
|
|
2023-01 |
Methane and carbon dioxide separation characteristics of quaternary ammonium salt hydrates for biogas upgrading under static conditions of gas–solid contact
Energy & Fuels, 37, 9197
|
|
2023-06 |