Catalyst Deactivation 1997

Part 1 Review articles (plenary and award lectures): roles of acidity and pore structure in the deactivation of zeolites by carbonaceous deposits, M. Guisnet et al; impact of sulfur on three-way automotive catalyst performance and catalyst diagnostics, D.D. Beck. Part 2 Topical articles (oral and poster presentations) - carbon deposition and coking: the relationship between metal particle morphology and the structural characteristics of carbon deposits, R.T.K. Baker et al; self-poisoning and aging of Pd-Ag/Al1,O3 in semi-hydrogenation of 1,3-butadiene - effects of surface inhomogeneity caused by hydrocarbonaceous deposits, A. Sarkany. Part 3 Chemicals: the role of coke deposition in the conversion of methanol to olefins over SAPO-34, D. Chen et al; deactivation and regeneration of alkane dehydrogenation catalysts, S.D. Jackson et al; a novel mechanism of catalyst deactivation in liquid phase synthesis gas-to DME reactions, X.D. Peng et al. Part 4 Environmental: sulfur tolerance of Cu- and H-mordenite zeolite catalysts for the reduction of NO by hydrocarbons, M.H. Kim et al; deactivation of Cu-ZSM-5 during selective catalytic reduction of NO by propane under wet conditions, A. Martinez et al; H-mordenite deactivation during the SCR of NOx, adsorption and diffusion of probe molecules on fresh and deactivated catalysts, E.E. Miro et al. Part 5 Modelling and kinetic studies: coke deactivation of hydrotreating catalysts - a variable site model, F.E. Massoth; coke formation in fluid catalytic cracking, M.A. den Hollander et al. Part 6 Petroleum: effects of the metal-metal interactions on the stability of Pt-Re/Al2O3-Cl reforming catalysts, J. Barbier et al; temperature programmed oxidation of deactivated Pt/Nb2O5 catalysts, D.A.G. Aranda et al; effects of sulfidation of Mo nitride and CoMo nitride catalysis on thiopene HDS, S.-K. Ihm et al; catalyst deactivation by metals and coke during hydrodemetallation, M. Nunez et al; deactivation of Pt-Sn/Al2O3 catalysts by coking - influence of the preparation method, G. Corro et al; new developments in FCC catalyst deactivation by metals - metals mobility and the vanadium mobility index (VMI), L.T. Broock et al; stability of an FCC catalyst matrix for processing gas oil with resid, P. Gamero et al. Part 7 Poisoning: industrial evaluation of selective hydrogenation catalyst poisoning, B. Didillon et al; the mechanism of metal poisoning by cyclic deactivation in fluid cracking catalysts, F. Hernandez et al; AFM and XPS studies of thiophene and 1-butanethiol deactivation of Pd/Al2O3 model catalysts during 1,3-butanethiol hydrogenation, K.-H. Lee et al. Part 8 Syngas conversion: deactivation and attrition of iron catalysts in synthesis gas, N.B. Jackson et al; temperature-programmed reaction study of carbon transformations on iron Fischer-Tropsch catalysts during steady-state synthesis, S.A. Eliason and C.H. Bartholomew. (Part contents)