Chemical reactor analysis and design GF Froment, KB Bischoff, J De Wilde Wiley 2, 104-127, 1990 | 5523 | 1990 |
Methane steam reforming, methanation and water‐gas shift: I. Intrinsic kinetics J Xu, GF Froment AIChE journal 35 (1), 88-96, 1989 | 2938 | 1989 |
A steady-state kinetic model for methanol synthesis and the water gas shift reaction on a commercial Cu/ZnO/Al2O3Catalyst KMV Bussche, GF Froment Journal of catalysis 161 (1), 1-10, 1996 | 833 | 1996 |
Methane steam reforming: II. Diffusional limitations and reactor simulation J Xu, GF Froment AIChE Journal 35 (1), 97-103, 1989 | 553 | 1989 |
Filamentous carbon formation and gasification: thermodynamics, driving force, nucleation, and steady-state growth JW Snoeck, GF Froment, M Fowles Journal of Catalysis 169 (1), 240-249, 1997 | 516 | 1997 |
Heat transfer in packed beds AP De Wasch, GF Froment Chemical Engineering Science 27 (3), 567-576, 1972 | 367 | 1972 |
Kinetic study of the carbon filament formation by methane cracking on a nickel catalyst JW Snoeck, GF Froment, M Fowles Journal of Catalysis 169 (1), 250-262, 1997 | 326 | 1997 |
Simulation of the catalytic partial oxidation of methane to synthesis gas AM De Groote, GF Froment Applied Catalysis A: General 138 (2), 245-264, 1996 | 322 | 1996 |
Kinetics of the Fischer-Tropsch reaction on a precipitated promoted iron catalyst. 2. Kinetic modeling ES Lox, GF Froment Industrial & engineering chemistry research 32 (1), 71-82, 1993 | 282 | 1993 |
Modeling of thermal cracking kinetics. 3. Radical mechanisms for the pyrolysis of simple paraffins, olefins, and their mixtures KM Sundaram, GF Froment Industrial & Engineering Chemistry Fundamentals 17 (3), 174-182, 1978 | 266 | 1978 |
Fixed bed catalytic reactors—current design status GF Froment Industrial & Engineering Chemistry 59 (2), 18-27, 1967 | 240 | 1967 |
Non-steady state behaviour of fixed bed catalytic reactors due to catalyst fouling GF Froment, KB Bischoff Chemical Engineering Science 16 (3-4), 189-201, 1961 | 240 | 1961 |
Steam/CO2 Reforming of Methane. Carbon Filament Formation by the Boudouard Reaction and Gasification by CO2, by H2, and by Steam: Kinetic Study JW Snoeck, GF Froment, M Fowles Industrial & engineering chemistry research 41 (17), 4252-4265, 2002 | 235 | 2002 |
Hydroisomerization and hydrocracking. 2. Product distributions from n-decane and n-dodecane M Steijns, G Froment, P Jacobs, J Uytterhaeven, J Weitkamp Industrial & Engineering Chemistry Product Research and Development 20 (4 …, 1981 | 228 | 1981 |
Catalytic conversion of methanol to light alkenes on SAPO molecular sieves AJ Marchi, GF Froment Applied catalysis 71 (1), 139-152, 1991 | 227 | 1991 |
Optimal promoter edge decoration of CoMoS catalysts: A combined theoretical and experimental study AD Gandubert, E Krebs, C Legens, D Costa, D Guillaume, P Raybaud Catalysis Today 130 (1), 149-159, 2008 | 225 | 2008 |
Selective isomerization of hydrocarbon chains on external surfaces of zeolite crystals JA Martens, W Souverijns, W Verrelst, R Parton, GF Froment, PA Jacobs Angewandte Chemie International Edition in English 34 (22), 2528-2530, 1995 | 223 | 1995 |
Selective conversion of decane into branched isomers: A comparison of platinum/ZSM-22, platinum/ZSM-5 and platinum/USY zeolite catalysts JA Martens, R Parton, L Uytterhoeven, PA Jacobs, GF Froment Applied catalysis 76 (1), 95-116, 1991 | 215 | 1991 |
Velocity, temperature and conversion profiles in fixed bed catalytic reactors JJ Lerou, GF Froment Chemical Engineering Science 32 (8), 853-861, 1977 | 215 | 1977 |
Dehydrogenation of 1-butene into butadiene. Kinetics, catalyst coking, and reactor design FJ Dumez, GF Froment Industrial & Engineering Chemistry Process Design and Development 15 (2 …, 1976 | 208 | 1976 |