| 3 - 12 |
Short history and present trends of Fischer-Tropsch synthesis
Schulz H |
| 13 - 26 |
Low temperature Fischer-Tropsch synthesis from a Sasol perspective
Espinoza RL, Steynberg AP, Jager B, Vosloo AC |
| 27 - 40 |
Fischer-Tropsch technology - from active site to commercial process
Geerlings JJC, Wilson JH, Kramer GJ, Kuipers HPCE, Hoek A, Huisman HM |
| 41 - 54 |
High temperature Fischer-Tropsch synthesis in commercial practice
Steynberg AP, Espinoza RL, Jager B, Vosloo AC |
| 55 - 70 |
Fundamentals and selection of advanced Fischer-Tropsch reactors
Sie ST, Krishna R |
| 71 - 90 |
Reactions of alpha-olefins of different chain length added during Fischer-Tropsch synthesis on a cobalt catalyst in a slurry reactor
Schulz H, Claeys M |
| 91 - 107 |
Kinetic modelling of Fischer-Tropsch product distributions
Schulz H, Claeys M |
| 109 - 119 |
Studies on product distributions of iron and cobalt catalyzed Fischer-Tropsch synthesis
Patzlaff J, Liu Y, Graffmann C, Gaube J |
| 121 - 128 |
Catalytic performances of cobalt-based ultrafine particles prepared by chemical reduction in slurry-phase Fischer-Tropsch synthesis
Kikuchi E, Sorita R, Takahashi H, Matsuda T |
| 129 - 144 |
Comparison of patented CoF-T catalysts using fixed-bed and slurry bubble column reactors
Oukaci R, Singleton AH, Goodwin JG |
| 145 - 168 |
Preparation and characterization of Fischer-Tropsch active Co/SiO2 catalysts
Ernst B, Libs S, Chaumette P, Kiennemann A |
| 169 - 188 |
Study of the effect of water on alumina supported cobalt Fischer-Tropsch catalysts
Hilmen AM, Schanke D, Hanssen KF, Holmen A |
| 189 - 200 |
Fischer-Tropsch synthesis: the influence of various cobalt compounds applied in the preparation of supported cobalt catalysts on their performance
Kraum M, Baerns M |
| 201 - 213 |
Comparative study of Fischer-Tropsch synthesis with H-2/CO and H-2/CO2 syngas using Fe- and Co-based catalysts
Riedel T, Claeys M, Schulz H, Schaub G, Nam SS, Jun KW, Choi MJ, Kishan G, Lee KW |
| 215 - 227 |
Transient initial kinetic regimes of Fischer-Tropsch synthesis
Schulz H, Schaub G, Claeys M, Riedel T |
| 229 - 243 |
Reaction and deactivation kinetics for Fischer-Tropsch synthesis on unpromoted and potassium-promoted iron catalysts
Eliason SA, Bartholomew CH |
| 245 - 253 |
CO hydrogenation using supported iron carbonyl complexes
Johnston P, Hutchings GJ, Coville NJ, Finch KP, Moss JR |
| 255 - 275 |
Pretreatment effect studies with a precipitated iron Fischer-Tropsch catalyst in a slurry reactor
Bukur DB, Lang XS, Ding YJ |
| 277 - 296 |
Characterization of slurry phase iron catalysts for Fischer-Tropsch synthesis
Mansker LD, Jin YM, Bukur DB, Datye AK |
| 297 - 307 |
The effect of sulfide ions on a precipitated iron Fischer-Tropsch catalyst
Bromfield TC, Coville NJ |
| 309 - 320 |
Polymerisation kinetics of the Fischer-Tropsch CO hydrogenation using iron and cobalt based catalysts
van Steen E, Schulz H |
| 321 - 342 |
Fischer-Tropsch-synthesis with nitrogen-rich syngas -Fundamentals and reactor design aspects
Jess A, Popp R, Hedden K |
| 343 - 354 |
Fischer-Tropsch synthesis in supercritical fluid: characteristics and application
Fan L, Fujimoto K |
| 355 - 362 |
Catalytic hydrogenation of carbon oxides - a 10-year perspective
Borodko Y, Somorjai GA |
| 363 - 374 |
Towards a chemical understanding of the Fischer-Tropsch reaction: alkene formation
Maitlis PM, Quyoum R, Long HC, Turner ML |
| 395 - 406 |
Highly effective synthesis of ethanol by CO2-hydrogenation on well balanced multi-functional FT-type composite catalysts
Inui T, Yamamoto T, Inoue M, Hara H, Takeguchi T, Kim JB |
