Industrial Catalysis: A Practical ApproachJohn Wiley & Sons, 24.09.2015 - 544 Seiten Now in it's 3rd Edition, Industrial Catalysis offers all relevant information on catalytic processes in industry, including many recent examples. Perfectly suited for self-study, it is the ideal companion for scientists who want to get into the field or refresh existing knowledge. The updated edition covers the full range of industrial aspects, from catalyst development and testing to process examples and catalyst recycling. The book is characterized by its practical relevance, expressed by a selection of over 40 examples of catalytic processes in industry. In addition, new chapters on catalytic processes with renewable materials and polymerization catalysis have been included. Existing chapters have been carefully revised and supported by new subchapters, for example, on metathesis reactions, refinery processes, petrochemistry and new reactor concepts. "I found the book accesible, readable and interesting - both as a refresher and as an introduction to new topics - and a convenient first reference on current industrial catalytic practise and processes." Excerpt from a book review for the second edition by P. C. H. Mitchell, Applied Organometallic Chemistry (2007) |
Inhalt
17 | |
Homogeneously Catalyzed Industrial Processes | 47 |
Biocatalysis | 81 |
Fundamentals | 99 |
Catalyst Shapes and Production of Heterogeneous | 211 |
Zeolites | 239 |
Heterogeneously Catalyzed Processes in Industry | 261 |
Refinery Processes and Petrochemistry | 299 |
PhaseTransfer Catalysis | 353 |
Catalytic Processes with Renewable Materials | 361 |
Polymerization Catalysis | 381 |
Planning Development and Testing of Catalysts | 395 |
Catalysis Reactors | 433 |
Economic Importance of Catalysts | 459 |
Solutions to the Exercises | 473 |
513 | |
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acid active addition adsorbed adsorption advantages alcohols applications atoms bond carbon carried catalyst cell centers chemical chemisorption chemistry complex components compounds concentration constant conversion coordination cracking depends described determined effects electron energy enzyme equation ethylene example Exercise Explain Figure formation fuel function give groups heat heterogeneous catalysts higher homogeneous catalysts hydrogenation important increasing industrial influence intermediate ions kinetic leads ligands liquid lower mass materials measurements mechanism methanol method molecules obtained occur olefins operation organic oxidation oxygen particle phase poisoning polymer polymerization pore possible presence pressure properties reactants reaction reaction rate reactor reduction reforming relatively removal Scheme selectivity separation shown shows solid solvent species stability starting steps structure substrate surface synthesis Table temperature tion transition metal Wiley-VCH Verlag yield zeolites