Title:
Fluid catalytic cracking III : materials and processes
Series:
ASC symposium series ; 571
Publication Information:
Washington, DC : American Chemical Society, 1994
ISBN:
9780841229969
General Note:
Developed from a symposium sponsored by the Division of Petroleum Chemistry, Inc. at the 206th National Meeting of the American Chemical Society, Chicago, Illinois, August 22-27, 1993
Subject Term:
Added Corporate Author:
Available:*
Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
|---|---|---|---|---|---|
Searching... | 30000003820515 | TP690.4 F58 1994 | Open Access Book | Book | Searching... |
On Order
Summary
Summary
Discusses the formulation, characterization, microactivity, and pilot-plant testing, and product analysis of fluid cracking catalysts. Examines the use of modern spectroscopic techniques such as infrared spectroscopy, solid-state nuclear magnetic resonance spectroscopy, and X-ray photoelectron spectroscopy for the analysis of FCC catalysts. Presents the first use of atomic force microscopy in the study of FCC catalysts. Studies the impact of environmental laws on the discovery of novel FCC catalysts.
Table of Contents
| Role of Carbocations in Hydrocarbon Reactions Catalyzed by Strong AcidsG.K. S. Prakash |
| Role of Hydrogen Transfer in Isobutene-Isobutane SelectivitiesG. M. Mvrovouniotis and W.-C. Cheng and A.W. Peters |
| Benzene Levels in Fluid Catalytic Cracking GasolineC.A. Yatsu and T. A. Reid and D. A. Keyworth and R. Jonker and M.A. Torem |
| Deep Catalytic Cracking Process for Light-Olefins ProductionZ. Li and W. Shi and X. Wang and F. Jiang |
| Comparison of Laboratory and Commercial Results of ZSM-5 Additives in a Fluid Catalytic Cracking UnitL, Nalbandian and I.A. Vasalos and I. Dimaratos and K. Vassilakis |
| Effect of Secondary Porosity on Gas-Oil Cracking ActivityP.-S. E. Dai and L.D.Neff and J.C. Edwards |
| Investigations of Mesopore Formation: Evolution of Nonframework Aluminum Species During Hydrothermal Dealumination of Ultrastable Y CatalystsR.A. Beyerlein and C. Choi-Feng and J.B. Hall and B.J. Huggins and G.J. Ray |
| Catalyst Fouling by Coke from Vaccum Gas Oil in Fluid Catalytic Cracking ReactorsP. Turlier and M. Forissier and P. Rivault and I. Pitault and J.R. Bernard |
| Coke Formation in Reactor Vapor Lines of Fluid Catalytic Cracking Units: A Review with some New InsightsE. Brevoord and J.R. Wilcox |
| Limitations of the Microactivity Test for Comparing New Potential Cracking Catalysts with Actual Ultrastable-Y-Based SamplesA. Corma and A. Martinez and L.J. Martinez-Triguero |
| Development of a New Coefficient To Predict Feedstock CrackingM. A. Torem and M.F. Cunha and V. Aleksitch |
| Breakthrough in Microactivity Test Effluent Analysis: Detailed Analytical Characterization of Gasolines, Light-Cycle Oil, and bottom CutsN. Boisdron and M. Bouquet and C. Largeteau |
| Solid-State Interaction Between NaY Zeolite and Various OxidesJ. Thoret and P.P. Man and J. Fraissard |
| Interactions in Alumina-Based Iron-Vanadium Catalysts under High-Temperature Oxidation ConditionsM.C. Springman and F. T. Clark and D. Willcox and I.E. Wachs |
| Activity and Deactivation in Catalytic Cracking Studied by Measurement of Adsorption During ReactionF. Hershkowitz and H.S. Kheshgi and P.D. Madiara |
| Effect of Support Texture on Pt Dispersion and CO-Oxidation Catalyst in Fluid Catalytic CrackingT. Zalioubovskaia and A. Gedeon and J. Fraissard and E. Radchenko and B. Nefedov |
| Scanning Electron Microscopy-Energy-Dispersive X-ray Analysis of Nickel Migration in Model Fluid Cracking CatalystsY.-F. Shen and H. Cao and S. L. Suib and M. L. Occelli |
| Coking and Regeneration of Fluid Cracking Catalysts by 129Xe and 27Al Nuclear Magnetic Resonance SpectroscpyJ.L. Bonardet and M.C. Barrage and J. Fraissard |
| Fluid Cracking Catalyst ZSM-5 Additive Performance at Overcracking ModeL.H. Hsing and R.E. Pratt |
| Atomic Force Microscopy Examination of the Topography of a Fluid Cracking Catalyst SurfaceM.L. Occelli and S.A. C. Gould and B. Drake |
| Kinetics of n-Decane Cracking at Very Short Times on StreamA. Corma and A. Martinez and P.J. Miguel and A.V. Orchilles |
| High Activity, High Stability Fluid Cracking Catalyst SO x Reduction Agent via Novel Processing PrinciplesL.M. Magnabosco and E.J. Demmel |
| Resid Cracking CatalystsS. Tu and Z. Chen and Z. Fan |
| Impact of Additive Usage in Distillate Fluid Catalytic Cracking OperationS. Mandal and D. Bhattacharyya and V. B. Shende and A.K. Das and S. Ghosh |
| Fluid Cracking Catalyst Performance and Development: Now and in the FutureJ.S. Magee and W.E. Letzsch |
