Contemporary Catalysis
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portes grátis
Contemporary Catalysis
Fundamentals and Current Applications
Ross, Julian R.H.
Elsevier Science & Technology
11/2018
402
Dura
Inglês
9780444634740
15 a 20 dias
990
Descrição não disponível.
Part 1: Fundamentals of Heterogeneous Catalysis1. An Introduction to Heterogeneous Catalysis - Chemistry in Two Dimensions2. Surfaces and Adsorption3. How does a Catalyst Work?4. Catalyst Preparation5. Catalyst Characterization6. Catalytic Reactors and the Measurement of Catalytic Behaviour 7. The Kinetics and Mechanisms of Catalytic Reactions8. Mass and Heat Transfer Limitations and Other Aspects of the Use of Large Scale Catalytic Reactors
Part 2: Current Applications of Heterogeneous Catalysis 9. CO2 and Energy10. The Production of Energy-Carriers from Oil11. Production of Hydrogen and Syngas from Methane and Some Other Reactions of Methane12. Catalytic Reactions involving Syngas, Hydrogen or Carbon Monoxide for the Production of Intermediates and Chemicals13. Environmental Catalysis14. Conversion of Hydrocarbons to Intermediates by Catalytic Hydrogenation or Oxidation15. Catalysis in Biomass Conversion
Appendix: The Use of the Catalysis Literature
Part 2: Current Applications of Heterogeneous Catalysis 9. CO2 and Energy10. The Production of Energy-Carriers from Oil11. Production of Hydrogen and Syngas from Methane and Some Other Reactions of Methane12. Catalytic Reactions involving Syngas, Hydrogen or Carbon Monoxide for the Production of Intermediates and Chemicals13. Environmental Catalysis14. Conversion of Hydrocarbons to Intermediates by Catalytic Hydrogenation or Oxidation15. Catalysis in Biomass Conversion
Appendix: The Use of the Catalysis Literature
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Acetic acid by catalytic ethane oxidation; Acetic acid production and uses; Acetylene hydrogenation,; Acidity; Acrolein hydrogenation; Activated carbon; Active surface area; Adsorption of two species; Alumina; Ammonia oxidation; Ammonia production and uses; Ammonia synthesis reactors; Automobile car exhaust catalysts; Basicity; Bergius process; Bimolecular catalytic reactions; Bio-oil production; Biodiesel; Biofine Process; Biomass conversion; Butadiene hydrogenation; Catalyst promoters; Catalyst supports; Catalysts for CO2 reforming; Catalysts for the FischeraEUR"Tropsch process; Catalysts for the Sohio process; Catalytic activity measurements; Catalytic ammoxidation of propylene to acrylonitrile; Catalytic combustion of natural gas; Catalytic control of diesel emissions; Catalytic filters; Catalytic hydrogenation processes; Catalytic oxidation in fine chemicals production; Catalytic oxidation of propylene to acrolein; Catalytic volatile organic compound (VOC) control; Cellulose structure; Chemical composition; Chemical heat pipes; Chemicals and fuel from crude oil; Chemisorption of hydrogen; Chemisorption of methane; Claus process; Coal as fuel and source of chemicals; Continuous generation of hydrogen from formic acid solutions; Coprecipitation; Correlations in chemisorption; Crotonaldehyde hydrogenation; Crude oil as source of energy; Crude oil distillation; Definition and examples of catalysis; Dehydrogenation of paraffins; Determination of metal areas; Determination of pore size and distribution; Deuterium exchange of hydrocarbons; Development of catalysis literature; Differential measurements; Diffusion effects on poisoning; Diffusion effects on selectivity; Diffusion limitations; Dioxin control; Dispersion of catalytic sites; Dry (CO2) reforming of methane; DuPont recirculation process for maleic anhydride; Effectiveness factor; Egg-shell catalysts; Electron microscopy; EleyaEUR"Rideal mechanism; Enantioselective hydrogenation; Energetics of catalytic processes; Environmental control catalysis; Enzyme kinetics; Ethylene hydrogenation; Examples of metallic catalysts; Examples of oxidic catalysts; Examples of sulfide catalysts; External diffusion limitations; Extrusion of supports; Fat hydrogenation; Feedstock cleaning; First generation biorefineries; FischeraEUR"Tropsch process; Flow reactors; Fluid catalytic cracking (FCC); Fluidized bed reactors; Formic acid as a hydrogen storage material; Formic acid decomposition; Formic acid from methanol; Formic acid production from biomass; Gasification of biomass; Gold catalysts for selective oxidation; Granulation of supports; Green catalytic conversion processes; Haber process for ammonia synthesis; Heat transfer in catalysis; Hemicellulose; Hexadiene hydrogenation; Historical development of heterogeneous catalysis; Hydrocarbon fuel production; Hydrodemetalization (HDM); Hydrodenitrogenation (HDN)
Part 1: Fundamentals of Heterogeneous Catalysis1. An Introduction to Heterogeneous Catalysis - Chemistry in Two Dimensions2. Surfaces and Adsorption3. How does a Catalyst Work?4. Catalyst Preparation5. Catalyst Characterization6. Catalytic Reactors and the Measurement of Catalytic Behaviour 7. The Kinetics and Mechanisms of Catalytic Reactions8. Mass and Heat Transfer Limitations and Other Aspects of the Use of Large Scale Catalytic Reactors
Part 2: Current Applications of Heterogeneous Catalysis 9. CO2 and Energy10. The Production of Energy-Carriers from Oil11. Production of Hydrogen and Syngas from Methane and Some Other Reactions of Methane12. Catalytic Reactions involving Syngas, Hydrogen or Carbon Monoxide for the Production of Intermediates and Chemicals13. Environmental Catalysis14. Conversion of Hydrocarbons to Intermediates by Catalytic Hydrogenation or Oxidation15. Catalysis in Biomass Conversion
Appendix: The Use of the Catalysis Literature
Part 2: Current Applications of Heterogeneous Catalysis 9. CO2 and Energy10. The Production of Energy-Carriers from Oil11. Production of Hydrogen and Syngas from Methane and Some Other Reactions of Methane12. Catalytic Reactions involving Syngas, Hydrogen or Carbon Monoxide for the Production of Intermediates and Chemicals13. Environmental Catalysis14. Conversion of Hydrocarbons to Intermediates by Catalytic Hydrogenation or Oxidation15. Catalysis in Biomass Conversion
Appendix: The Use of the Catalysis Literature
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Acetic acid by catalytic ethane oxidation; Acetic acid production and uses; Acetylene hydrogenation,; Acidity; Acrolein hydrogenation; Activated carbon; Active surface area; Adsorption of two species; Alumina; Ammonia oxidation; Ammonia production and uses; Ammonia synthesis reactors; Automobile car exhaust catalysts; Basicity; Bergius process; Bimolecular catalytic reactions; Bio-oil production; Biodiesel; Biofine Process; Biomass conversion; Butadiene hydrogenation; Catalyst promoters; Catalyst supports; Catalysts for CO2 reforming; Catalysts for the FischeraEUR"Tropsch process; Catalysts for the Sohio process; Catalytic activity measurements; Catalytic ammoxidation of propylene to acrylonitrile; Catalytic combustion of natural gas; Catalytic control of diesel emissions; Catalytic filters; Catalytic hydrogenation processes; Catalytic oxidation in fine chemicals production; Catalytic oxidation of propylene to acrolein; Catalytic volatile organic compound (VOC) control; Cellulose structure; Chemical composition; Chemical heat pipes; Chemicals and fuel from crude oil; Chemisorption of hydrogen; Chemisorption of methane; Claus process; Coal as fuel and source of chemicals; Continuous generation of hydrogen from formic acid solutions; Coprecipitation; Correlations in chemisorption; Crotonaldehyde hydrogenation; Crude oil as source of energy; Crude oil distillation; Definition and examples of catalysis; Dehydrogenation of paraffins; Determination of metal areas; Determination of pore size and distribution; Deuterium exchange of hydrocarbons; Development of catalysis literature; Differential measurements; Diffusion effects on poisoning; Diffusion effects on selectivity; Diffusion limitations; Dioxin control; Dispersion of catalytic sites; Dry (CO2) reforming of methane; DuPont recirculation process for maleic anhydride; Effectiveness factor; Egg-shell catalysts; Electron microscopy; EleyaEUR"Rideal mechanism; Enantioselective hydrogenation; Energetics of catalytic processes; Environmental control catalysis; Enzyme kinetics; Ethylene hydrogenation; Examples of metallic catalysts; Examples of oxidic catalysts; Examples of sulfide catalysts; External diffusion limitations; Extrusion of supports; Fat hydrogenation; Feedstock cleaning; First generation biorefineries; FischeraEUR"Tropsch process; Flow reactors; Fluid catalytic cracking (FCC); Fluidized bed reactors; Formic acid as a hydrogen storage material; Formic acid decomposition; Formic acid from methanol; Formic acid production from biomass; Gasification of biomass; Gold catalysts for selective oxidation; Granulation of supports; Green catalytic conversion processes; Haber process for ammonia synthesis; Heat transfer in catalysis; Hemicellulose; Hexadiene hydrogenation; Historical development of heterogeneous catalysis; Hydrocarbon fuel production; Hydrodemetalization (HDM); Hydrodenitrogenation (HDN)