Catalyst Design
Catalyst Design
Asterios Gavriilidis, University College London
Arvind Varma, University of Notre Dame, Indiana
Heterogeneous catalysis is widely used in chemical, refinery, and pollution-control processes. For this reason, achieving optimal performance of catalysts is a significant issue for chemical engineers and chemists. This book addresses the question of how catalytic material should be distributed inside a porous support in order to obtain optimal performance. It treats single and multiple reaction systems, isothermal and nonisothermal conditions, pellets, monoliths, fixed-bed reactors, and membrane reactors. The effects of physicochemical and operating parameters are analyzed to gain insight into the underlying phenomena governing the performance of optimally designed catalysts. Throughout, the authors offer a balanced treatment of theory and experiment. Particular attention is given to problems of commercial importance. With its thorough treatment of the design, preparation, and utilization of supported catalysts, this book will be an ideal resource for graduate students, researchers, and practising engineers and chemists.
- Offers a balanced treatment of theory and experiment, with particular attention given to problems of commercial importance
- Includes a wealth of illustrations and an extensive bibliography for reference
- Internationally renowned author team are experts in the field
Reviews & endorsements
'… a well-balanced presentation of mathematical analysis and selected experiments of the effects of non-uniform catalyst distributions on catalyst performance and how to obtain an optimum catalyst distribution … The reviewer is enthusiastic about the book and would strongly recommend it to all researchers and postgraduate students interested in heterogeneous catalysis.' Platinum Metals Review
'Offering a rich source of interesting mathematical problems for applied mathematicians … an impressive acquisition for all researchers and postgraduate students interested in heterogeneous catalysis.' Current Engineering Practice
Product details
March 2001Hardback
9780521660594
240 pages
260 × 180 × 17 mm
0.57kg
95 b/w illus. 10 tables
Available
Table of Contents
- 1. Introduction
- 2. Optimization of catalyst distribution in a single pellet
- 3. Optimization of catalyst distribution in a reactor
- 4. Studies involving catalyst deactivation
- 5. Membrane reactors
- 6. Special topics of commercial importance
- 7. Preparation of pellets with nonuniform distribution of catalyst
- Notation
- References
- Tables
- Captions for figures
- Appendices.
