1 - 1 |
Syngas Convention - Fuels and Chemicals from Synthesis Gas: State of the Art 2 Preface Claeys M, van Steen E, Niemantsverdriet H, Vosloo M, Fischer N |
2 - 10 |
Application of water-tolerant Co/beta-SiC catalysts in slurry phase Fischer-Tropsch synthesis Labuschagne J, Meyer R, Chonco ZH, Botha JM, Moodley DJ |
V - V |
Dedication O'Connor C, Claeys M, Fletcher J |
11 - 19 |
On the support in cobalt Fischer-Tropsch synthesis-Emphasis on alumina and aluminates Rytter E, Holmen A |
20 - 26 |
Kinetic modeling of transient Fischer-Tropsch experiments over Co/Al2O3 catalysts with different microstructures Rebmann E, Fongarland P, Lecocq V, Diehl F, Schuurman Y |
27 - 34 |
Hydrogen spillover in the Fischer-Tropsch synthesis: An analysis of gold as a promoter for cobalt-alumina catalysts Nabaho D, Niemantsverdriet JW, Claeys M, van Steen E |
35 - 39 |
Fischer Tropsch synthesis using cobalt based carbon catalysts Iqbal S, Davies TE, Morgan DJ, Karim K, Hayward JS, Bartley JK, Taylor SH, Hutchings GJ |
40 - 48 |
Development of a chemical selective iron Fischer Tropsch catalyst Botes GF, Bromfield TC, Coetzer RLJ, Crous R, Gibson P, Ferreira AC |
49 - 58 |
Fischer-Tropsch synthesis and water gas shift kinetics for a precipitated iron catalyst Ma WP, Jacobs G, Sparks DE, Klettlinger JLS, Yen CH, Davis BH |
59 - 65 |
Product distribution of CO2 hydrogenation by K- and Mn-promoted Fe catalysts supported on N-functionalized carbon nanotubes Kangvansura P, Chew LM, Saengsui W, Santawaja P, Poo-arporn Y, Muhler M, Schulz H, Worayingyong A |
66 - 75 |
Role of water-gas-shift reaction in Fischer-Tropsch synthesis on iron catalysts: A review Bukur DB, Todic B, Elbashir N |
76 - 83 |
Ruthenium nanoparticles encapsulated inside porous hollow carbon spheres: A novel catalyst for Fischer-Tropsch synthesis Phaahlamohlaka TN, Kumi DO, Dlamini MW, Jewell LL, Coville NJ |
84 - 93 |
Effects of co-feeding with nitrogen-containing compounds on the performance of supported cobalt and iron catalysts in Fischer-Tropsch synthesis Ordomsky VV, Carvalho A, Legras B, Paula S, Virginie M, Sushkevich VL, Khodakov AY |
94 - 99 |
Enhanced olefin production in Fischer-Tropsch synthesis using ammonia containing synthesis gas feeds Rausch AK, Schubert L, Henkel R, van Steen E, Claeys M, Roessner F |
100 - 110 |
Reflections on the Fischer-Tropsch synthesis: Mechanistic issues from a surface science perspective Weststrate CJ, van Helden P, Niemantsverdriet JW |
111 - 118 |
A quantum-chemical DFT study of CO dissociation on Fe-promoted stepped Rh surfaces Filot IAW, Fariduddin F, Broos RJP, Zijlstra B, Hensen EJM |
119 - 126 |
Further insights into the effect of sulfur on the activity and selectivity of cobalt-based Fischer-Tropsch catalysts Barrientos J, Montes V, Boutonnet M, Jaras S |
127 - 134 |
The role of carboxylic acid in cobalt Fischer-Tropsch synthesis catalyst deactivation Kistamurthy D, Saib AM, Moodley DJ, Preston H, Ciobica IM, van Rensburg WJ, Niemantsverdriet JW, Weststrate CJ |
135 - 140 |
Effectiveness of catalyst passivation techniques studied in situ with a magnetometer Wolf M, Fischer N, Claeys M |
141 - 148 |
Hydroconversion of paraffinic wax over platinum and palladium catalysts supported on silica-alumina Paris RS, L'Abbate ME, Liotta LF, Montes V, Barrientos J, Regali F, Aho A, Boutonnet M, Jaras S |
149 - 154 |
Phase changes studied under in situ conditions-A novel cell Fischer N, Claeys M |
155 - 163 |
Experimental evaluation of catalyst layers with bimodal pore structure for Fischer-Tropsch synthesis Becker H, Guttel R, Turek T |
164 - 171 |
Lab-scale experimental studies of Fischer-Tropsch kinetics in a three-phase slurry reactor under transient reaction conditions Eilers H, Gonzalez MI, Schaub G |
172 - 182 |
Interplay of reaction and pore diffusion during cobalt-catalyzed Fischer-Tropsch synthesis with CO2-rich syngas Pohlmann F, Jess A |
183 - 190 |
Influence of the spatial arrangement of catalyst components in the single-stage conversion of synthesis gas to gasoline Lorenz E, Wehling P, Schlereth M, Kraushaar-Czarnetzki B |
191 - 200 |
Industrial viability of homogeneous olefin metathesis: Beneficiation of linear alpha olefins with the diphenyl-substituted pyridinyl alcoholato ruthenium carbene precatalyst du Toit JI, van der Gryp P, Loock MM, Tole TT, Marx S, Jordaan JHL, Vosloo HCM |