| 1 - 1 |
NGCS 11 Tromso-11th Natural Gas Conversion Symposium
Venvik HJ, Holmen A, Chen D, Rytter E, Akporiaye D |
| 2 - 9 |
Midnight-sun-induced natural gas conversion
Sprung C, Redekop EA, Armstrong RD, Tsakoumis NE |
| 10 - 13 |
Fischer-Tropsch catalyst deactivation in commercial microchannel reactor operation
Steynberg AP, Deshmukh SR, Robota HJ |
| 14 - 19 |
Fischer-Tropsch synthesis: Effect of carbonyl sulfide poison over a Pt promoted Co/alumina catalyst
Pendyala VRR, Jacobs G, Ma WP, Shafer WD, Sparks DE, MacLennan A, Hu YF, Davis BH |
| 20 - 27 |
Hydrophobic catalyst support surfaces by silylation of gamma-alumina for Co/Re Fischer-Tropsch synthesis
Rytter E, Salman AU, Tsakoumis NE, Myrstad R, Yang J, Logdberg S, Holmen A, Ronning M |
| 28 - 36 |
Fischer-Tropsch synthesis. Effect of KCl contaminant on the performance of iron and cobalt catalysts
Ma WP, Jacobs G, Pendyala VRR, Sparks DE, Shafer WD, Thomas GA, MacLennan A, Hu YF, Davis BH |
| 37 - 46 |
Effects of K adsorption on the CO-induced restructuring of Co(11-20)
Stromsheim MD, Svenum IH, Farstad MH, Li ZS, Gavrilovic L, Guo XY, Lervold S, Borg A, Venvik HJ |
| 47 - 59 |
Synthesis of light olefins and alkanes on supported iron oxide catalysts
Lodeng R, Lunder O, Lein JE, Dahl PI, Svenum IH |
| 60 - 66 |
Performance improvement for a fixed-bed reactor with layered loading catalysts of different catalytic properties for oxidative coupling of methane
Liang WG, Sarsani S, West D, Mamedov A, Lengyel I, Perez H, Lowrey J |
| 67 - 79 |
Synthesis of graphenic nanomaterials by decomposition of methane on a Ni-Cu/biomorphic carbon catalyst. Kinetic and characterization results
Cazana F, Latorre N, Tarifa P, Labarta J, Romeo E, Monzon A |
| 80 - 85 |
Catalytic oxidative conversion of methane and ethane over polyoxometalate-derived catalysts in electric field at low temperature
Ogo S, Iwasaki K, Sugiura K, Sato A, Yabe T, Sekine Y |
| 86 - 92 |
Nonthermal plasma-assisted direct conversion of methane over NiO and MgO catalysts supported on SBA-15
Park D, Kim J, Kim T |
| 93 - 101 |
Mixed oxide Ti-Si-O prepared by non-hydrolytic Xerogel method as a diluter of nickel oxide for the oxidative dehydrogenation of ethane
Ykrelef A, Nadji L, Issaadi R, Agouram S, Rodriguez-Castellon E, Solsona B, Nieto JML |
| 102 - 111 |
Simulation-aided effective design of a catalytic reactor for ethane oxidative dehydrogenation over NiNbOx
Skoufa Z, Giannakakis G, Heracleous E, Lemonidou AA |
| 112 - 119 |
Low temperature methanol synthesis catalyzed by copper nanoparticles
Ahoba-Sam C, Olsbye U, Jens KJ |
| 120 - 134 |
Influence of post-synthetic modifications on the composition, acidity and textural properties of ZSM-22 zeolite
del Campo P, Beato P, Rey F, Navarro MT, Olsbye U, Lillerud KP, Svelle S |
| 135 - 145 |
Impact of post-synthetic treatments on unidirectional H-ZSM-22 zeolite catalyst: Towards improved clean MTG catalytic process
del Campo P, Olsbye U, Lillerud KP, Svelle S, Beato P |
| 146 - 153 |
Structure and reactivity of Pt-In intermetallic alloy nanoparticles: Highly selective catalysts for ethane dehydrogenation
Wegener EC, Wu ZW, Tseng HT, Gallagher JR, Ren Y, Diaz RE, Ribeiro FH, Miller JT |
| 154 - 163 |
Ethene oligomerization on nickel microporous and mesoporous-supported catalysts: Investigation of the active sites
Henry R, Komurcu M, Ganjkhanlou Y, Brogaard RY, Lu L, Jens KJ, Berlier G, Olsbye U |
| 164 - 171 |
On the effects of K and La co-promotion on CuCl2/gamma-Al2O3 catalysts for the oxychlorination of ethylene
Baidoo MF, Fenes E, Rout KR, Fuglerud T, Chen D |
| 172 - 182 |
Understanding deactivation processes during bio-syngas methanation: DRIFTS and SSITKA experiments and kinetic modeling over Ni/Al2O3 catalysts
Lorito D, Li HG, Travert A, Mauge F, Meunier FC, Schuurman Y, Mirodatos C |
| 183 - 192 |
Highly active NiO-CeO2 catalysts for synthetic natural gas production by CO2 methanation
Atzori L, Cutrufello MG, Meloni D, Cannas C, Gazzoli D, Monaci R, Sini MF, Rombi E |
| 193 - 200 |
Dispersed and high loading Ni catalyst stabilized in porous SiO2 matrix for substituted natural gas production
Kamata H, Tian ZQ, Izumi Y, Choong CKS, Chang J, Schreyer M, Chen LW, Borgna A |
| 201 - 211 |
Origin and reactivity of active and inactive carbon formed during DRM over Ni/Ce0.38Zr0.62O2-delta studied by transient isotopic techniques
Vasiliades MA, Djinovic P, Davlyatova LF, Pintar A, Efstathiou AM |
| 212 - 218 |
The addition of alkali and alkaline earth metals to Pd/Al2O3 to promote methane combustion. Effect of Pd and Ca loading
Auvray X, Lindholm A, Milh M, Olsson L |
| 219 - 228 |
Synthesis gas production by catalytic partial oxidation of natural gas using ceramic foam catalyst
Urasaki K, Kado S, Kiryu A, Imagawa K, Tomishige K, Horn R, Korup O, Suehiro Y |
| 229 - 241 |
Perovskite as catalyst precursors in the partial oxidation of methane: The effect of cobalt, nickel and pretreatment
Santos MD, Neto RCR, Noronha FB, Bargiela P, da Rocha MDC, Resini C, Carbo-Argibay E, Frety R, Brandao ST |
| 242 - 250 |
Combined steam and CO2 reforming of methane over La1-xSrxNiO3 perovskite oxides
Yang EH, Noh YS, Hong GH, Moon DJ |
| 251 - 262 |
Study of the performance of Pt/Al2O3 and Pt/CeO2/Al2O3 catalysts for steam reforming of toluene, methane and mixtures
de Castro TP, Silveira EB, Rabelo-Neto RC, Borges LEP, Noronha FB |
| 263 - 271 |
Catalyst assisted by non-thermal plasma in dry reforming of methane at low temperature
Yap D, Tatibouet JM, Batiot-Dupeyrat C |
| 272 - 279 |
Production of a hydrogen-enriched syngas by combined CO2-steam reforming of methane over Co-based catalysts supported on alumina modified with zirconia
Itkulova SS, Nurmakanov YY, Kussanova SK, Boleubayev YA |
| 280 - 288 |
Syngas production by means of biogas catalytic partial oxidation and dry reforming using Rh-based catalysts
Moral A, Reyero I, Alfaro C, Bimbela F, Gandia LM |
| 289 - 302 |
Statistical review of dry reforming of methane literature using decision tree and artificial neural network analysis
Sener AN, Gunay ME, Leba A, Yildirim R |
| 303 - 316 |
Intermetallides as the catalysts for carbon dioxide reforming of methane
Arkatova LA, Kasatsky NG, Maximov YM, Pakhnutov OV, Shmakov AN |
| 317 - 327 |
Glycerol steam reforming with low steam/glycerol ratio in a two-zone fluidized bed reactor
Yus M, Soler J, Herguido J, Menendez M |
| 328 - 338 |
Modeling of intensified glycerol steam reforming in a heat-exchange integrated microchannel reactor
Delparish A, Avci AK |
