The petroleum refining industry has been changed by environmental regulations worldwide. Examining these effects, this book explores the use of adsorption microcalorimetry to measure acidity, acid site density, and the strength of the strongest acid sites in heterogenous catalysts. It also discusses the use of 1H-NMR to characterize the properties of a FCCU feedstock and examines pilot plant testing of catalysts and nontraditional feedstocks, maximizing and improving LCO (heating oil) production and quality, and improving FCCU operations. The final chapters examine the EPA's attempts to…mehr
The petroleum refining industry has been changed by environmental regulations worldwide. Examining these effects, this book explores the use of adsorption microcalorimetry to measure acidity, acid site density, and the strength of the strongest acid sites in heterogenous catalysts. It also discusses the use of 1H-NMR to characterize the properties of a FCCU feedstock and examines pilot plant testing of catalysts and nontraditional feedstocks, maximizing and improving LCO (heating oil) production and quality, and improving FCCU operations. The final chapters examine the EPA's attempts to encourage the refining industry to enter into voluntary consent decrees to comply with the Clean Air Act.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Mario L. Occelli has a Ph.D. in physical chemistry from Iowa State University. He has contributed to multidisciplinary research projects with chemists, surface scientists, physicists, material scientists, and chemical engineers working in national and industrial laboratories and in academia. He has published more than 125 refereed papers, received 30 U.S. patents, presented over 120 papers and lectures at national and international meetings, and edited or co-edited 12 books. Currently he works as an independent consultant.
Inhaltsangabe
Maximizing FCC Light Cycle Oil by Heavy Cycle Oil Recycle. A New Catalytic Process Approach for Low Aromatic LCO. Catalyst Evaluation Using an ARCO Pilot Unit on North Sea Atmospheric Residue. Pilot Unit Test of Residue Type Catalysts on North Sea Atmospheric Residue. Novel FCC Catalysts and Processing Methods for Heavy Oil Conversion and Propylene Production. Improving the Profitability of the FCCU. Troubleshooting Complex FCCU Issues. Catalytic Cracking for Integration of Refinery and Steam Crackers. Advanced Artificial Deactivation of FCC Catalysts. Coke Characterization by Temperature-Programmed Oxidation of Spent FCC Catalysts that Process Heavy Feedstock. The Effect of Cohesive Forces on Catalyst Entrainment in Fluidized Bed Regenerators. Application of 1H-NMR for Fluid Catalytic Cracking Feed Characterization. Surface Acid-Base Characterization of Containing Group IlIA Catalysts by Using Adsorption Microcalorimetry. EPA Consent Decree Implementation. FCC Emission Reduction Technologies Through Consent Decree Implementation: Heat Balance Effects on Emissions. FCC Emission Reduction Technologies Through Consent Decree Implementation: FCC SOx Emissions and Controls. FCC Emission Reduction Technologies Through Consent Decree Implementation: FCC NOx Emissions and Controls. FCC Emission Reduction Technologies Through Consent Decree Implementation: FCC PM Emissions and Controls. Index.
Maximizing FCC Light Cycle Oil by Heavy Cycle Oil Recycle. A New Catalytic Process Approach for Low Aromatic LCO. Catalyst Evaluation Using an ARCO Pilot Unit on North Sea Atmospheric Residue. Pilot Unit Test of Residue Type Catalysts on North Sea Atmospheric Residue. Novel FCC Catalysts and Processing Methods for Heavy Oil Conversion and Propylene Production. Improving the Profitability of the FCCU. Troubleshooting Complex FCCU Issues. Catalytic Cracking for Integration of Refinery and Steam Crackers. Advanced Artificial Deactivation of FCC Catalysts. Coke Characterization by Temperature-Programmed Oxidation of Spent FCC Catalysts that Process Heavy Feedstock. The Effect of Cohesive Forces on Catalyst Entrainment in Fluidized Bed Regenerators. Application of 1H-NMR for Fluid Catalytic Cracking Feed Characterization. Surface Acid-Base Characterization of Containing Group IlIA Catalysts by Using Adsorption Microcalorimetry. EPA Consent Decree Implementation. FCC Emission Reduction Technologies Through Consent Decree Implementation: Heat Balance Effects on Emissions. FCC Emission Reduction Technologies Through Consent Decree Implementation: FCC SOx Emissions and Controls. FCC Emission Reduction Technologies Through Consent Decree Implementation: FCC NOx Emissions and Controls. FCC Emission Reduction Technologies Through Consent Decree Implementation: FCC PM Emissions and Controls. Index.
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