| 225 - 225 |
Fischer-Tropsch synthesis on the eve of XXI century - In honour of Prof. M. Dry - South Africa, November 5-9, 2000 - Preface
van Steen E |
| 227 - 241 |
The Fischer-Tropsch process: 1950-2000
Dry ME |
| 243 - 247 |
Syngas in perspective
Rostrup-Nielsen JR |
| 249 - 300 |
Overview of reactors for liquid phase Fischer-Tropsch synthesis
Davis BH |
| 301 - 305 |
Synthol reactor technology development
Duvenhage DJ, Shingles T |
| 307 - 318 |
The role of sulfur in commercial iron-based Fischer-Tropsch catalysis with focus on C-2-product selectivity and yield
Kritzinger JA |
| 319 - 326 |
Attrition resistance of spray-dried iron F-T catalysts: effect of activation conditions
Zhao R, Sudsakorn K, Goodwin JG, Jothimurugesan K, Gangwal SK, Spivey JJ |
| 327 - 334 |
Comparison of preparation methods for carbon nanotubes supported iron Fischer-Tropsch catalysts
van Steen E, Prinsloo FF |
| 335 - 341 |
Application of in situ Mossbauer spectroscopy to investigate the effect of precipitating agents on precipitated iron Fischer-Tropsch catalysts
Motjope TR, Dlamini HT, Hearne GR, Coville NJ |
| 343 - 349 |
Some evidence refuting the alkenyl mechanism for chain growth in iron-based Fischer-Tropsch synthesis
Ndlovu SB, Phala NS, Hearshaw-Timme M, Beagly P, Moss JR, Claeys M, van Steen E |
| 351 - 360 |
Construction of the Fischer-Tropsch regime with cobalt catalysts
Schulz H, Nie ZQ, Ousmanov F |
| 361 - 367 |
Passivation of a Co-Ru/gamma-Al2O3 Fischer-Tropsch catalyst
Hammache S, Goodwin JG, Oukaci R |
| 369 - 379 |
The application of Mossbauer emission spectroscopy to industrial cobalt based Fischer-Tropsch catalysts
Craje MWJ, van der Kraan AM, van de Loosdrecht J, van Berge PJ |
| 381 - 394 |
Interpretation and kinetic modeling of product distributions of cobalt catalyzed Fischer-Tropsch synthesis
Patzlaff J, Liu Y, Graffmann C, Gaube J |
| 395 - 402 |
Silica supported cobalt Fischer-Tropsch catalysts: effect of pore diameter of support
Saib AM, Claeys M, van Steen E |
| 403 - 410 |
Effect of boron source on the catalyst reducibility and Fischer-Tropsch synthesis activity of Co/TiO2 catalysts
Coville NJ, Li J |
| 411 - 418 |
CO and CO2 hydrogenation study on supported cobalt Fischer-Tropsch synthesis catalysts
Zhang YQ, Jacobs G, Sparks DE, Dry ME, Davis BH |
| 419 - 427 |
On the effect of water during Fischer-Tropsch synthesis with a ruthenium catalyst
Claeys M, van Steen E |
| 429 - 435 |
NAS (novel aluminosilicates) as catalysts for the aromatisation of propane - Studies of zinc and gallium modified zeolite-based systems having various extents of XRD crystallinity
Nicolaides CP, Sincadu NP, Scurrell MS |
| 437 - 445 |
Mossgas "gas-to-liquid" diesel fuels - an environmentally friendly option
Knottenbelt C |
