| 1 - 7 |
Reaction Engineering & Catalysis Issue in Honor of Professor Dragomir Bukur: Introduction and Review
Elbashir NO, Chatla A, Lemonidou A, Spivey JJ |
| 8 - 17 |
Sulfated hafnia as a support for Mo oxide: A novel catalyst for methane dehydroaromatization
Abedin MA, Kanitkar S, Bhattar S, Spivey JJ |
| 18 - 25 |
Ni-alumina dry reforming catalysts: Atomic layer deposition and the issue of Ni aluminate
Littlewood P, Liu SS, Weitz E, Marks TJ, Stair PC |
| 26 - 37 |
Ni-based nano-catalysts for the dry reforming of methane
Ali S, Khader MM, Almarri MJ, Abdelmoneim AG |
| 38 - 47 |
Synthesis of Ru-based catalysts for CO2 methanation and experimental assessment of intraporous transport limitations
Porta A, Falbo L, Visconti CG, Lietti L, Bassano C, Deiana P |
| 48 - 55 |
CNx stabilized Ni-Ga nanoparticles for CO2 hydrogenation: Role of preparation methods
Goyal R, Lee WJ, Sameer S, Sarkar B, Chiang K, Bordoloi A |
| 56 - 62 |
Stable niobia-supported nickel catalysts for the hydrogenation of carbon monoxide to hydrocarbons
Mejia CH, Vogt C, Weckhuysen BM, de Jong KP |
| 63 - 71 |
Syngas chemical looping combustion using a highly performing fluidizable oxygen carrier
Ahmed I, de Lasa H |
| 72 - 79 |
Reaction-based kinetic model for the reduction of supported NiO oxygen transfer materials by CH4
Ipsakis D, Heracleous E, Silvester L, Bukur DB, Lemonidou AA |
| 80 - 90 |
Tailoring the product selectivity of Co/SiO2 Fischer-Tropsch synthesis catalysts by lanthanide doping
Ribeiro MC, Gnanamani MK, Garcia R, Jacobs G, Rabelo-Neto RC, Noronha FB, Gomes IF, Davis BH |
| 91 - 100 |
Enhanced Fischer-Tropsch synthesis performances of Fe/h-BN catalysts by Cu and Mn
Wang XZ, Zhang CH, Chang Q, Wang LC, Lv BL, Xu J, Xiang HW, Yang Y, Li YW |
| 101 - 111 |
Effect of potassium promoter on phase transformation during H-2 pretreatment of a Fe2O3 Fischer Tropsch synthesis catalyst precursor
Niu LW, Liu XW, Wen XD, Yang Y, Xu J, Li YW |
| 112 - 124 |
Understanding the deactivation process of a microfibrous entrapped cobalt catalyst in supercritical fluid Fischer-Tropsch Synthesis
Choudhury HA, Cheng X, Afzal S, Prakash AV, Tatarchuk BJ, Elbashir NO |
| 125 - 136 |
Quantitative comparison of iron and cobalt based catalysts for the Fischer-Tropsch synthesis under clean and poisoning conditions
Ma WP, Jacobs G, Sparks DE, Todic B, Bukur DB, Davis BH |
| 137 - 145 |
Fischer-Tropsch synthesis: Using deuterium tracer coupled with kinetic approach to study the kinetic isotopic effects of iron, cobalt and ruthenium catalysts
Ma WP, Shafer WD, Martinelli M, Sparks DE, Davis BH |
| 146 - 155 |
Pore diffusion effects on catalyst effectiveness and selectivity of cobalt based Fischer-Tropsch catalyst
Bukur DB, Mandic M, Todic B, Nikacevic N |
| 156 - 164 |
Optimization of forced periodic operations in milli-scale fixed bed reactor for Fischer-Tropsch synthesis
Nikacevic N, Todic B, Mandic M, Petkovska M, Bukur DB |
| 165 - 175 |
Experimental verification of 2-dimensional computational fluid dynamics modeling of supercritical fluids Fischer Tropsch reactor bed
Abusrafa AE, Challiwala MS, Choudhury HA, Wilhite BA, Elbashir NO |
| 176 - 182 |
Surface modification of Co3O4 nanocubes with TEOS for an improved performance in the Fischer-Tropsch synthesis
Macheli L, Roy A, Carleschi E, Doyle BP, van Steen E |
| 183 - 190 |
The effect of metal additives in Cu/Zn/Al2O3 as a catalyst for low-pressure methanol synthesis in an oil-cooled annulus reactor
Lee WJ, Bordoloi A, Patel J, Bhatelia T |
| 191 - 198 |
The impact of the development of catalyst and reaction system of the methanol synthesis stage on the overall profitability of the entire plant: A techno-economic study
Alsuhaibani AS, Afzal S, Challiwala M, Elbashir NO, El-Halwagi MM |
| 199 - 205 |
Assessment of metal sintering in the copper-zeolite hybrid catalyst for direct dimethyl ether synthesis using synchrotron-based X-ray absorption and diffraction
Khodakov AY, Ordomsky VV, Palcic A, Cai MD, Subramanian V, Luo Y, Valtchev V, Moldovan S, Ersen O |
| 206 - 214 |
Designing a hierarchical nanosheet ZSM-35 zeolite to realize more efficient ethanol synthesis from dimethyl ether and syngas
Feng XB, Zhang PP, Fang Y, Charusiri W, Yao J, Gao XH, Wei QH, Reubroycharoen P, Vitidsant T, Yoneyama Y, Yang GH, Tsubaki N |
| 215 - 225 |
Highly dispersed molybdenum containing mesoporous silicate (Mo-TUD-1) for olefin metathesis
Uchagawkar A, Ramanathan A, Hu YF, Subramaniam B |
| 226 - 233 |
Modelling and simulation of a single slit micro packed bed reactor for methanol synthesis
Bakhtiary-Davijany H, Hayer F, Phan XK, Myrstad R, Venvik HJ, Pfeifer P, Holmen A |
