| 189 - 190 |
Gas clathrate hydrates
Warzinski RP, Holder GD |
| 191 - 196 |
Gas hydrates : Review of physical/chemical properties
Sloan ED |
| 197 - 200 |
The diverse nature of dodecahedral cages in clathrate hydrates as revealed by Xe-129 and C-13 NMR spectroscopy : CO2 as a small-cage guest
Ripmeester JA, Ratcliffe CI |
| 201 - 211 |
Polycrystalline methane hydrate : Synthesis from superheated ice, and low-temperature mechanical properties
Stern LA, Kirby SH, Durham WB |
| 212 - 215 |
Experimental study of hydrate crystal growth from methane, carbon dioxide, and methane plus propane mixtures
Lee SY, McGregor E, Holder GD |
| 216 - 218 |
Enhanced hydrate inhibitors : Powerful synergism with glycol ethers
Cohen JM, Wolf PF, Young WD |
| 219 - 222 |
Simple method for predicting gas-hydrate-forming conditions in aqueous mixed-electrolyte solutions
Javanmardi J, Moshfeghian M, Maddox RN |
| 223 - 229 |
Kinetic behavior of solid particle in chemical-looping combustion : Suppressing carbon deposition in reduction
Ishida M, Jin HG, Okamoto T |
| 230 - 238 |
Correlations of exhaust emissions from a diesel engine with diesel fuel properties
Karonis D, Lois E, Stournas S, Zannikos F |
| 239 - 247 |
Product fractions obtained by hydrocracking vacuum residue from athabasca bitumen using bimodal catalysts of varying macropore volume
Ternan M |
| 248 - 256 |
Catalytic activities and coking characteristics of oxides-supported Ni catalysts for CH4 reforming with carbon dioxide
Wang SB, Lu GQ |
| 257 - 261 |
Use of thermomechanical analysis to quantify the flux additions necessary for slag flow in slagging gasifiers fired with coal
Bryant GW, Lucas JA, Gupta SK, Wall TF |
| 262 - 267 |
Reduction of molecular motion of polymethylene in oil shales by mineral matter
Lee GSH, Berkovich AJ, Levy JH, Young BR, Wilson MA |
| 268 - 276 |
A comparison of coal char reactivity determined from thermogravimetric and laminar flow reactor experiments
Zolin A, Jensen A, Pedersen LS, Dam-Johansen K, Torslev P |
| 277 - 283 |
Geochemical significance of n-alkane compositional-trait variations in coals
Nelson CR, Li WB, Lazar IM, Larson KH, Malik A, Lee ML |
| 284 - 288 |
Solvent-free liquefaction of brown and subbituminous coals using NiMo sulfide catalyst supported on carbon nanoparticles
Sakanishi K, Hasuo H, Kishino M, Mochida I |
| 289 - 297 |
Interaction of molten salts with a semianthracite char at 873 K. A study by X-ray diffraction
Alfaro-Dominguez M, Higes-Rolando FJ, Gomez-Serrano V, Martin-Aranda RM, Rojas-Cervantes ML, Lopez-Peinado AJ |
| 298 - 303 |
Hydrocracking of dibenzothiophenes catalyzed by palladium- and nickel-coloaded Y-type zeolite
Kaneda K, Wada T, Murata S, Nomura M |
| 304 - 311 |
Determination of physicochemical properties and carbon-type analysis of base oils using mid-IR spectroscopy and partial least-squares regression analysis
Sastry MIS, Chopra A, Sarpal AS, Jain SK, Srivastava SP, Bhatnagar AK |
| 312 - 319 |
Direct liquefaction of coal using aerosol-generated ferric sulfide based mixed-metal catalysts
Sharma RK, MacFadden JS, Stiller AH, Dadyburjor DB |
| 320 - 328 |
Relating feedstock composition to product slate and composition in catalytic cracking. 4. An extended pendant-core model for gasoline composition
Sheppard CM, Green JB, Vanderveen JW |
| 329 - 338 |
Modeling low-temperature gas reburning. NOx reduction potential and effects of mixing
Alzueta MU, Bilbao R, Millera A, Glarborg P, Ostberg M, Dam-Johansen K |
| 339 - 343 |
Interatomic interactions in the adsorption of asphaltenes and resins on kaolinite calculated by molecular dynamics
Murgich J, Rodriguez J, Izquierdo A, Carbognani L, Rogel E |
| 344 - 352 |
Computational fluid dynamics simulations of jet fuel oxidation incorporating pseudo-detailed chemical kinetics
Ervin JS, Zabarnick S |
| 353 - 364 |
EOS simulation and GRNN modeling of the constant volume depletion behavior of gas condensate reservoirs
Elsharkawy AM, Foda SG |
| 365 - 370 |
Kinetics of sulfur removal from a liquid coal residue in thermal, hydrothermal, and hydrocatalytic cracking
Martinez MT, Benito AM, Callejas MA, Trasobares S |
| 371 - 378 |
Significance of copper complex thermal stability in the use of metal deactivators at elevated temperatures
Morris RE, Hasan MT, Su TCK, Wechter MA, Turner NH, Schreifels JA |
| 379 - 385 |
Use of a dispersed molybdenum catalyst and mechanistic studies for upgrading extra-heavy crude oil using methane as source of hydrogen
Ovalles C, Filgueiras E, Morales A, Rojas I, de Jesus JC, Berrios I |
| 386 - 390 |
A study of multilayer adsorption of asphaltenes on glass surfaces by photothermal surface deformation. Relation of this adsorption to aggregate formation in solution
Acevedo S, Castillo J, Fernandez A, Goncalves S, Ranaudo MA |
| 391 - 398 |
Reexamination of the RICO method
Artok L, Murata S, Nomura M, Satoh T |
| 399 - 408 |
Solid state C-13 and F-19 NMR characterization of fluorinated charcoal
Hagaman EW, Murray DK, Del Cul GD |
| 409 - 415 |
Effect of pore-modifier graphite on the performance of a zinc titanate sorbent in hot coal gas desulfurization
Pineda M, Palacios JM, Tomas F, Cilleruelo C, Garcia E, Ibarra JV |
| 416 - 421 |
Role of N-containing surface species on NO reduction by carbon
Chambrion P, Kyotani T, Tomita A |
| 422 - 428 |
Characterization of asphaltenes molecular structure
Calemma V, Rausa R, D'Antona P, Montanari L |
| 429 - 442 |
Ash deposition trials at three power stations in Denmark
Laursen K, Frandsen F, Larsen OH |
| 444 - 444 |
Solvent-free liquefaction of brown and subbituminous coals using NiMo sulfide catalyst supported on carbon nanoparticles (vol 12, pg 284, 1998)
Sakanishi K, Hasuo H, Mochida I |
