1 - 1 |
The International Symposium Gas-fuel 05 Froment GF |
2 - 9 |
Oil and natural gas supply for Europe Favennec JP |
10 - 14 |
The changing dynamics of olefin supply/demand Plotkin JS |
15 - 29 |
The future of the petrochemical industry in Europe Van Camp C |
30 - 33 |
Update on synthesis gas production for GTL Bakkerud PK |
34 - 40 |
Issues in H-2 and synthesis gas technologies for refinery, GTL and small and distributed industrial needs Basini L |
41 - 46 |
Sorption enhanced hydrogen production by steam methane reforming using Li2ZrO3 as sorbent: Sorption kinetics and reactor simulation Ochoa-Fernandez E, Rusten HK, Jakobsen HA, Ronning M, Holmen A, Chen D |
47 - 51 |
Influence of the co-feeding of CO, H-2, CO2 or H2O in the partial oxidation of methane over Ni and Rh supported catalysts Cellier C, Le Clef D, Mateos-Pedrero C, Ruiz P |
52 - 56 |
Reaction and characterization studies of an industrial Cr-free iron-based catalyst for high-temperature water gas shift reaction Liu QS, Ma WP, He RX, Mu ZJ |
57 - 61 |
Integration of the Total Petrochemicals-UOP olefins conversion process into a naphtha steam cracker facility Grootjans J, Vanrysselberghe V, Vermeiren W |
62 - 71 |
Study of direct and indirect naphtha recycling to a resid FCC unit for maximum propylene production Verstraete J, Coupard V, Thomazeau C, Etienne P |
72 - 76 |
Crossing the breakthrough line of ethylene production by short contact time catalytic partial oxidation Donsi F, Cimino S, Pirone R, Russo G, Sanfilippo D |
77 - 83 |
DC and FCC dry gas valorization on PtZrGa/MCM-41 Tailleur RG, Platin JB |
84 - 89 |
New route for light olefins production from chloromethane over HSAPO-34 molecular sieve Wei YX, Zhang DZ, Xu L, Liu ZM, Su BL |
90 - 94 |
Oxidative dehydrogenation of propane over catalysts based on carbon nanofibers Sui ZJ, Zhou JH, Dai YC, Yuan WK |
95 - 98 |
Highly effective oxidative cracking of n-butane in light olefins on a novel cobalt catalyst Kaliya ML, Kogan SB |
99 - 102 |
Methanol synthesis at near-critical conditions combined zwith ATR synthesis gas technology - The technology choice for large-scale methanol production Perregaard J |
103 - 107 |
Recent advancements in ethylene and propylene production using the UOP/Hydro MTO process Chen JQ, Bozzano A, Glover B, Fuglerud T, Kvisle S |
108 - 111 |
Mechanistic insight into the methanol-to-hydrocarbons reaction Olsbye U, Bjorgen M, Svelle S, Lillerud KP, Kolboe S |
112 - 117 |
Reaction scheme and kinetic modelling for the MTO process over a SAPO-18 catalyst Gayubo AG, Aguayo AT, Alonso A, Atutxa A, Bilbao J |
118 - 122 |
Effect of nickel incorporation on the acidity and stability of HZSM-5 zeolite in the MTO process Valle B, Alonso A, Atutxa A, Gayubo AG, Bilbao J |
123 - 128 |
The impacts of a GTL plant on Brazil's oil products supply and refinery expansion Szklo A, Machado G, Schaeffer R, Mariano J, Sala J, Tavares M |
129 - 131 |
Fischer-Tropsch synthesis: The paraffin to olefin ratio as a function of carbon number Shi BC, Davis BH |
132 - 136 |
Transient studies of the elementary steps of Fischer-Tropsch synthesis Khodakov AY, Peregryn B, Lermontov AS, Girardon JS, Pietrzyk S |
137 - 142 |
Influence of syngas composition on the transient behavior of a Fischer-Tropsch continuous slurry reactor Bremaud M, Fongarland P, Anfray J, Jallais S, Schweich D, Khodakov AY |
143 - 148 |
Membrane application in Fischer-Tropsch synthesis reactors - Overview of concepts Rohde MP, Unruh D, Schaub G |
149 - 153 |
Novel utilization of MCM-22 molecular sieves as supports of cobalt catalysts in the Fischer-Tropsch synthesis Ravishankar R, Li MM, Borgna A |
154 - 160 |
Supercritical phase process for direct synthesis of middle iso-paraffins from modified Fischer-Tropsch reaction Li XH, Liu XH, Liu ZW, Asami K, Fujimoto K |
161 - 165 |
Optimization of the pretreatment procedure in the design of cobalt silica supported Fischer-Tropsch catalysts Girardon JS, Constant-Griboval A, Gengembre L, Chernavskii PA, Khodakov AY |
166 - 169 |
Recycling GTL catalysts - A new challenge Brumby A, Verhelst M, Cheret D |
170 - 175 |
A highly active and stable Fe-Mn catalyst for slurry Fischer-Tropsch synthesis Yang Y, Xiang HW, Zhang RL, Zhong B, Li YW |
176 - 179 |
Estimation of the impact in the air quality by the use of clean fuels (fuel oil versus natural gas) Lopez JL, Mandujano C |
180 - 185 |
Two phase mathematical model for a bio-trickling reactor for the production of ultra low sulfur diesel (ULSD) from deeply hydrodesulfurized diesel Mukhopadhyaya M, Chowdhury R, Bhattacharya P |
186 - 189 |
Hydrodeoxygenation of aliphatic esters on sulphided NiMo/gamma-Al2O3 and CoMo/gamma-Al2O3 catalyst: The effect of water Senol OI, Viljava TR, Krause AOI |
190 - 192 |
New heterogeneous process for biodiesel production: A way to improve the quality and the value of the crude glycerin produced by biodiesel plants Bournay L, Casanave D, Delfort B, Hillion G, Chodorge JA |
193 - 196 |
Pilot plant studies of biodiesel production using Brassica carinata as raw material Bouaid A, Diaz Y, Martinez M, Aracil J |
197 - 200 |
Hydrocarbons for diesel fuel via decarboxylation of vegetable oils Kubickova I, Snare M, Eranen K, Maki-Arvela P, Murzin DY |
201 - 205 |
Hydrodesulfurization of dibenzothiophene over alumina-supported nickel molybdenum phosphide catalysts Nagai M, Fukiage T, Kurata S |
206 - 210 |
A novel composite support for hydrotreating catalyst aimed at ultra-clean fuels Shen BJ, Li HF, Zhang WC, Zhao Y, Zhang ZH, Wang XH, Shen SK |
211 - 218 |
Investigation of carbonaceous compounds deposited on NiMo catalyst used for ultra-deep hydrodesulfurization of gas oil by means of temperature-programmed oxidation and Raman spectroscopy Koizumi N, Urabe Y, Inamura K, Itoh T, Yamada M |
219 - 221 |
Catalyst screening for oxidative desulfurization using hydrogen peroxide Zapata B, Pedraza F, Valenzuela MA |
222 - 226 |
Highly active sulfided CoMo catalyst on nano-structured TiO2 Escobar J, Toledo JA, Cortes MA, Mosqueira ML, Perez V, Ferrat G, Lopez-Salinas E, Torres-Garcia E |
227 - 232 |
Scaling down trickle bed reactors van Herk DL, Kreutzer MT, Makkee M, Moulijn JA |
233 - 237 |
Bi-phasic bio-conversion of sulfur present in model organo-sulfur compounds and hydro-treated diesel Guchhait S, Biswas D, Bhattacharya P, Chowdhury R |
238 - 242 |
Investigation of CoNiMo/Al2O3 catalysts: Relationship between H2S adsorption and HDS activity Homma T, Echard M, Leglise J |
243 - 246 |
A new gas to liquids (GTL) or gas to ethylene (GTE) technology Hall KR |
247 - 251 |
Semi-indirect synthesis of LPG from syngas: Conversion of DME into LPG Asami K, Zhang QW, Li XH, Asaoka S, Fujimoto K |
252 - 255 |
Methane to higher hydrocarbons via halogenation Degirmenci V, Uner D, Yilmaz A |
256 - 258 |
Simulation and economic evaluation of natural gas hydrates [NGH] as an alternative to liquefied natural gas [LNG] Abdalla BK, Abdullatef NA |
259 - 264 |
Low temperature water gas shift: Type and loading of metal impacts forward decomposition of pseudo-stabilized formate over metal/ceria catalysts Jacobs G, Ricote S, Graham UM, Patterson PM, Davis BH |
265 - 270 |
Deactivation and regeneration of hybrid catalysts in the single-step synthesis of dimethyl ether from syngas and CO2 Aguayo AT, Erena J, Sierra I, Olazar M, Bilbao J |
271 - 274 |
Production of gasoline range hydrocarbons from catalytic reaction of methane in the presence of ethylene over W/HZSM-5 Kusmiyati, Amin NAS |
275 - 281 |
Attrition studies with catalysts and supports for slurry phase Fischer-Tropsch synthesis Bukur DB |
282 - 287 |
Hydroconversion of Fischer-Tropsch waxes: Assessment of the operating conditions effect by factorial design experiments Calemma V, Correra S, Perego C, Pollesel P, Pellegrini L |
288 - 292 |
Are Fischer-Tropsch waxes good feedstocks for fluid catalytic cracking units? Dupain X, Krul RA, Makkee M, Moulijn JA |
293 - 296 |
Manufacture of hydrogen Rostrup-Nielsen T |
297 - 300 |
The technical feasibility of biomass gasification for hydrogen production Albertazzi S, Basile E, Brandin J, Einvall J, Hulteberg C, Fornasari G, Rosetti V, Sanati M, Trifiro F, Vaccari A |
301 - 304 |
Natural gas conversion to liquid fuels in a zone reactor Breed A, Doherty MF, Gadewar S, Grosso P, Lorkovic IM, McFarland EW, Weiss MJ |