Fluid Catalytic Cracking II: Concepts in Catalyst Design II

Origin of Strong Acidity in Dealuminated Zeolite-Y; Influence of Superacid Sites in Ultrastable Y Zeolites; Characterization of Zeolite-Cracking Catalysts; Increasing Motor Octanes by Using ZSM-5 in Catalytic Cracking: Riser Pilot Plant Gasoline Composition Analyses; Modification of Fluid Catalytic Cracking Catalysis by the Addition of ZSM-5: Gasoline Over-Cracking Studies; Hydrothermal Stability and Cracking Behavior of Silicoaluminophosphate Molecular Sieve-37 with Different Silicon Zeolites; Octane Enhancement in Catalytic Cracking by Using High-Silica Zeolites; Monitoring Fluid Cracking Catalyst Deactivation Profile by Equilibrium Catalyst Separation; Translation of Laboratory Fluid Cracking Catalyst Characterization Tests to Riser Reactors; Analysis of the Riser Reactor of a Fluid Cracking Unit: Model Based on Kinetics of Cracking and Deactivation from Laboratory Tests; Fluid Cracking Catalyst Metals Passivation: Development and Application; Selectivity of Silica-Alumina Matrices; Solid-Solid Reaction Between Y-Zeolite and Vanadium Pentoxide; Luminescence as a Probe of Metal Effects in Fluidized Cracking Catalysts; Vanadium-Contaminated Aluminas and Aluminosilicate Gels: '5V NMR Spectroscopic Characterization; Laser Raman and X-ray Photoelectron Characterization of V-Contaminated Components of Fluidized Cracking Catalystst; Petroleum Cracking Catalyst Characterization: Secondary Ion Mass Spectrometry Imaging Processing Methods; Aluminum-Exchanged Sepiolite as a Component of Fluid Cracking Catalysts; Long-Residue Processing in a Riser Pilot Plant; Concepts for Future Residuum Catalyst Development; Metal-Resistant Fluid Cracking Catalysts: Thirty Years of Research