| 1 - 1 |
Preface to the Special Issue on Gas Hydrates
Beltran JG |
| 2 - 8 |
Hydrate phase equilibrium data of mixed methane-tetrahydrofuran hydrates in saline water
Kumar A, Vedula SS, Kumar R, Linga P |
| 9 - 20 |
Effect of aromatic/aliphatic based ionic liquids on the phase behavior of methane hydrates: Experiments and modeling
Gupta P, Sakthivel S, Sangwai JS |
| 21 - 26 |
Phase equilibria for Kr hydrate formed with 2,2-dimethylbutane, methylcyclohexane and 1-methylpiperidine
Ohfuka Y, Fukushima N, Chen ZG, Fukuda M, Takeya S, Ohmura R |
| 27 - 32 |
Gas hydrates phase equilibria for structure I and II hydrates with chloride salts at high salt concentrations and up to 200 MPa
Hu Y, Makogon TY, Karanjkar P, Lee KH, Lee BR, Sum AK |
| 33 - 42 |
Hydrate thermal dissociation behavior and dissociation enthalpies in methane-carbon dioxide swapping process
Mu L, von Solms N |
| 43 - 47 |
Phase equilibria and azeotropic behavior of C2F6 + N-2 gas hydrates
Kim E, Ko G, Seo Y |
| 48 - 53 |
The impact of amino acids on methane hydrate phase boundary and formation kinetics
Bavoh CB, Nashed O, Khan MS, Partoon B, Lal B, Sharif AM |
| 54 - 59 |
Phase equilibria and dissociation enthalpies for tetra-n-butylammonium chloride semiclathrate hydrates formed with CO2, CH4, and CO2 + CH4
Qing SL, Zhong DL, Yi DT, Lu YY, Li Z |
| 60 - 67 |
Accurate thermodynamic description of vapor-liquid and solid-liquid equilibria of THF, water and gas hydrates with a unique set of parameters
de Oliveira IA, Segtovich ISV, Barreto AG, Tavares FW |
| 68 - 80 |
System-density fluctuations and electro-dissociation of methane clathrate hydrates in externally-applied static electric fields
Waldron CJ, English NJ |
| 81 - 90 |
Modelling hydrate deposition and sloughing in gas-dominant pipelines
Di Lorenzo M, Aman ZM, Kozielski K, Norris BWE, Johns ML, May EF |
| 91 - 96 |
Investigation into the effect of subcooling on the kinetics of hydrate formation
Mali GA, Chapoy A, Tohidi B |
| 97 - 105 |
A short note on modelling the three-phase equilibrium conditions of TBAB semi-clathrates formed in the presence of gas mixtures containing CO2
Michel N, Clarke MA |
| 106 - 112 |
Demonstration of gas-hydrate assisted carbon dioxide storage through horizontal injection in lab-scale reservoir
Massah M, Sun D, Sharifi H, Englezos P |
| 113 - 118 |
Bulk liquid and gas mole fraction measurements during hydrate growth for the CH4 + CO2 + H2O system
Lang F, Servio P |
| 119 - 127 |
Effect of acid gases on kinetic hydrate inhibitors
Tohidi F, Anderson R, Tohidi B |
| 128 - 137 |
Identification of conditions for increased methane storage capacity in sII and sH clathrate hydrates from Monte Carlo simulations
Papadimitriou NI, Tsimpanogiannis IN, Economou IG, Stubos AK |
| 138 - 146 |
Enhanced depressurisation for methane recovery from gas hydrate reservoirs by injection of compressed air and nitrogen
Okwananke A, Yang JH, Tohidi B, Chuvilin E, Istomin V, Bukhanov B, Cheremisin A |
| 147 - 154 |
Mean induction time and isothermal kinetic analysis of methane hydrate formation in water and imidazolium based ionic liquid solutions
Nashed O, Sabil KM, Ismail L, Japper-Jaafar A, Lal B |
| 155 - 163 |
Phase equilibria, kinetics and morphology of methane hydrate inhibited by antifreeze proteins: application of a novel 3-in-1 method
Udegbunam LU, DuQuesnay JR, Osorio L, Walker VK, Beltran JG |
| 164 - 179 |
Heat of dissociation from Statistical Thermodynamics: Using calorimetric data to estimate gas hydrate parameters
Medeiros FD, Segtovich ISV, Barreto AG, Tavares FW |
| 180 - 192 |
Thermodynamic modeling of phase equilibria of clathrate hydrates formed from CH4, CO2, C2H6, N-2 and C3H8, with different equations of state
Bhawangirkar DR, Adhikari J, Sangwai JS |
| 193 - 204 |
The difference between aspired and acquired hydrate volumes - A laboratory study of THF hydrate formation in dependence on initial THF: H2O ratios
Strauch B, Schicks JM, Luzi-Helbing M, Naumann R, Herbst M |
| 205 - 213 |
Surface chemistry effects on heterogeneous clathrate hydrate nucleation: A molecular dynamics study
DeFever RS, Sarupria S |
| 214 - 222 |
Hydrate anti-agglomeration and synergy effect in normal octane at varying water cuts and salt concentrations
Dong SB, Firoozabadi A |
| 223 - 235 |
Prediction of vapor-liquid-hydrate equilibrium conditions for single and mixed guest hydrates with the SAFT-VR Mie EOS
Waseem MS, Alsaifi NM |
| 236 - 241 |
A simplification of gas clathrate hydrate thermochemistry using the Thermodynamic Difference Rule (TDR). Part 1. Generation of particularly simple forms for standard thermodynamic parameters for specific hydrates
Jenkins HDB |
| 242 - 247 |
A simplification of gas clathrate hydrate thermochemistry using the Thermodynamic Difference Rule (TDR). Part 2. General Hydrates
Jenkins HDB |
| 248 - 255 |
Kinetic promotion of methane hydrate formation by combining anionic and silicone surfactants: Scalability promise of methane storage due to prevention of foam formation
Bhattacharjee G, Barmecha V, Kushwaha OS, Kumar R |
