| 1 - 1 |
Structured catalysts and reactors - 1st ICOSCAR Conference, October 21-24, 2001, Delft, the Netherlands - Preface
Moulijn JA, Stankiewicz A |
| 3 - 9 |
Monolith structures, materials, properties and uses
Williams JL |
| 11 - 15 |
A new technique for preparing ceramics for catalyst support exhibiting high porosity and high heat resistance
Yokota T, Takahata Y, Katsuyama T, Matsuda Y |
| 17 - 24 |
Micro-engineered catalyst systems: ABB's advancement in structured catalytic packings
Trubac RE, Dautzenberg FM, Griffin TA, Paikert B, Schmidt VR, Overbeek RA |
| 25 - 31 |
Iron oxide-based honeycomb catalysts for the dehydrogenation of ethylbenzene to styrene
Addiego WP, Liu W, Boger T |
| 33 - 39 |
Permeability of sintered microfibrous composites for heterogeneous catalysis and other chemical processing opportunities
Cahela DR, Tatarchuk BJ |
| 41 - 49 |
First-principles modeling, scaling laws and design of structured photocatalytic oxidation reactors for air purification
Raupp GB, Alexiadis A, Hossain MM, Changrani R |
| 51 - 55 |
Gas-liquid mass transfer of aqueous Taylor flow in monoliths
Heiszwolf JJ, Kreutzer MT, van den Eijnden MG, Kapteijn F, Moulijn JA |
| 57 - 62 |
Transient three-dimensional simulations of a catalytic combustion monolith using detailed models for heterogeneous and homogeneous reactions and transport phenomena
Tischer S, Correa C, Deutschmann O |
| 63 - 73 |
Simulation of structured catalytic reactors with enhanced thermal conductivity for selective oxidation reactions
Groppi G, Tronconi E |
| 75 - 85 |
Determination of catalytic packing characteristics for reactive distillation
Kolodziej A, Jaroszynski M, Hoffmann A, Gorak A |
| 87 - 93 |
The ejector-driven monolith loop reactor - experiments and modeling
Broekhuis RR, Machado RM, Nordquist AF |
| 95 - 103 |
Transient behaviour of perovskite-based monolithic reactors in the catalytic combustion of methane
Cimino S, Di Benedetto A, Pirone R, Russo G |
| 105 - 113 |
A structured catalytic bubble column reactor: hydrodynamics and mixing studies
Urseanu MI, Ellenberger J, Krishna R |
| 115 - 120 |
Alternative solution for strongly exothermal catalytic reactions: a new metal-structured catalyst carrier
Kolodziej A, Krajewski W, Dubis A |
| 121 - 129 |
Structured catalysts for partial oxidations
de Campos VJM, Quinta-Ferreira RM |
| 131 - 135 |
Hurdles and solutions for reactions between gas and liquid in a monolithic reactor
Vaarkamp M, Dijkstra W, Reesink BH |
| 137 - 146 |
Temperature excursions in packed bed reactors with an axial variation of catalyst activity
Jaree A, Budman H, Hudgins RR, Silveston PL, Yakhnin V, Menzinger M |
| 147 - 152 |
Influence of operating conditions on the observed reaction rate in the single channel monolith reactor
Bercic G |
| 153 - 163 |
Influence of channel geometry on hydrodynamics and mass transfer in the monolith film flow reactor
Heibel AK, Heiszwolf JJ, Kapteijn F, Moulijn JA |
| 165 - 170 |
Liquid-phase backmixing in bubble columns, structured by introduction of partition plates
Dreher AJ, Krishna R |
| 171 - 174 |
Pressure drop in monolith reactors
Woehl P, Cerro RL |
| 175 - 181 |
Structured multiphase reactors based on fibrous catalysts: nitrite hydrogenation as a case study
Holler V, Yuranov I, Kiwi-Minsker L, Renken A |
| 183 - 192 |
Design of a microstructured reactor with integrated heat-exchanger for optimum performance of a highly exothermic reaction
Rebrov E, de Croon MHJM, Schouten JC |
| 193 - 200 |
A structured test reactor for the evaporation of methanol on the basis of a catalytic combustion
Pasel J, Emonts B, Peters R, Stolten D |
| 201 - 208 |
Reactive distillation with KATAPAK((R))
Gotze L, Bailer O, Moritz P, von Scala C |
| 209 - 216 |
Application of numerical modeling of selective NOx reduction by hydrocarbon under diesel transient conditions in consideration of hydrocarbon adsorption and desorption process
Watanabe Y, Asano A, Banno K, Yokota K, Sugiura M |
| 217 - 226 |
Modelling propane dehydrogenation in a rotating monolith reactor
Stitt EH, Jackson SD, Shipley DG, King F |
| 227 - 232 |
Fischer-Tropsch synthesis on monolithic catalysts of different materials
Hilmen AM, Bergene E, Lindvag OA, Schanke D, Eri S, Holmen A |
| 233 - 239 |
Pillared clay and zirconia-based monolithic catalysts for selective catalytic reduction of nitric oxide by methane
Bahamonde A, Mohino F, Rebollar M, Yates M, Avila P, Mendioroz S |
| 241 - 245 |
Hydrogenation of dimethyl succinate over monolithic catalysts
Cybulski A, Chrzaszcz J, Twigg MV |
| 247 - 252 |
Development of a monolith-based process for H2O2-production: from idea to large-scale implementation
Albers RE, Nystrom M, Siverstrom M, Sellin A, Dellve AC, Andersson U, Herrmann W, Berglin T |
| 253 - 257 |
Deactivation of manganese oxide-based honeycomb monolith catalyst under reaction conditions of ammonia decomposition at high temperature
Ismagilov ZR, Khairulin SR, Shkrabina RA, Yashnik SA, Ushakov VA, Moulijn JA, van Langeveld AD |
| 259 - 264 |
Low-temperature SCR of NOx with NH3 over carbon-ceramic cellular monolith-supported manganese oxides
Valdes-Solis T, Marban G, Fuertes AB |
| 265 - 273 |
Influence of water on fast hydrogenation reactions with monolithic and slurry catalysts
Wolffenbuttel BMA, Nijhuis TA, Stankiewicz A, Moulijn JA |
| 275 - 281 |
The condensation/polymerisation of dimethyl siloxane fluids in a three-phase trickle flow monolith reactor
Awdry S, Kolaczkowski ST |
| 283 - 290 |
Carbon coated monolithic catalysts in the selective oxidation of cyclohexanone
Crezee E, Barendregt A, Kapteijn F, Moulijn JA |
| 291 - 296 |
A study on structural suitability of immobilized aluminum chloride catalyst for isobutene polymerization
Cai TX, He M, Shi XZ, Wang XP, Han DX, Lu LH |
| 297 - 305 |
Preparation of egg-shell type Al2O3-supported US photocatalysts for reduction of H2O to H-2
Sinha ASK, Sahu N, Arora MK, Upadhyay SN |
| 307 - 314 |
The deposition of gamma-Al2O3 layers on ceramic and metallic supports for the preparation of structured catalysts
Valentini M, Groppi G, Cristiani C, Levi M, Tronconi E, Forzatti P |
| 315 - 322 |
Iron, cobalt or nickel substituted MCM-41 molecular sieves for oxidation of hydrocarbons
Parvulescu V, Su BL |
| 323 - 329 |
Application of the seed-film method for the preparation of structured molecular sieve catalysts
Sterte J, Hedlund J, Creaser D, Ohrman O, Zheng W, Lassinantti M, Li QH, Jareman F |
| 331 - 335 |
Synthesis of hierarchical porous silicas with a controlled pore size distribution at various length scales
Coppens MO, Sun JH, Maschmeyer T |
| 337 - 342 |
Preparation and characterization of ceramic foam supported nanocrystalline zeolite catalysts
Buciuman FC, Kraushaar-Czarnetzki B |
| 343 - 349 |
Structured supports for noble catalytic metals: stainless steel fabrics and foils, and carbon fabrics
Reymond JP |
| 351 - 356 |
Supported honeycomb monolith catalysts for high-temperature ammonia decomposition and H2S removal
Ismagilov ZR, Shkrabina RA, Yashnik SA, Shikina NV, Andrievskaya IP, Khairulin SR, Ushakov VA, Moulijn JA, Babich IV |
| 357 - 363 |
Preparation and characterisation aspects of carbon-coated monoliths
Garcia-Bordeje E, Kapteijn F, Moulijn JA |
| 365 - 370 |
Synthesis of structured filamentous zeolite materials via ZSM-5 coatings of glass fibrous supports
Louis B, Tezel C, Kiwi-Minsker L, Renken A |
| 371 - 377 |
Liquid-phase mass transfer within KATAPAK-S-(R) structures studied using computational fluid dynamics simulations
van Baten JM, Krishna R |
| 379 - 383 |
Preparation of structured egg-shell catalysts for selective oxidations by the ANOF technique
Patcas F, Krysmann W, Honicke D, Buciuman FC |
| 385 - 392 |
Liquid and gas flow and related phenomena in monolithic catalysts studied by H-1 NMR microimaging
Koptyug IV, Ilyina LY, Matveev AV, Sagdeev RZ, Parmon VN, Altobelli SA |
| 393 - 397 |
Experimental and numerical study of applicability of porous combustors for HCl synthesis
Wawrzinek K, Kesting A, Kunzel J, Pickenacker K, Pickenacker O, Trimis D, Franz M, Hartel G |
| 399 - 408 |
Structured reactors for kinetic measurements under severe conditions in catalytic combustion over palladium supported systems
Groppi G, Ibashi W, Tronconi E, Forzatti P |
| 409 - 418 |
Active state of model cobalt foil catalyst studied by SEM, TPR/TPO, XPS and TG
Lojewska J, Makowski W, Tyszewski T, Dziembaj R |
