Chemical Reactor Design
Material type: TextLanguage: English Publisher: New York CRC Press 2021Description: x,436p. HB 23.7x16cmISBN: 9781138036185Subject(s): Chemical EngineeringDDC classification: 660.2832 Summary: Featuring case studies and worked examples that illustrate key concepts in the text, this book contains guidelines for scaleup of laboratory and pilot plant results, methods to derive the correct reaction order, activation energy, or kinetic model from laboratory tests, and theories, correlations, and practical examples for 2- and 3-phase reaction systems, including bubble columns, slurry reactions, trickle-led reactors, and fluidized beds. A comprehensive reference, the book offers strategies to analyze and interpret kinetic data for homogeneous and heterogeneous reactions, practical design procedures, rate equations, and analytical models for improved reactor performance.Item type | Current location | Collection | Call number | Status | Date due | Barcode | Item holds |
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Book | St Aloysius College PG Library | Analytical Chemistry | 660.2832 HARC (Browse shelf) | Available | PG023944 |
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660.2815 QUIC Computational quantum chemistry :an interactive guide to basis set theory. | 660.2815 TANV Computational chemistry. | 660.28215 CADL Concepts of nanochemistry. | 660.2832 HARC Chemical Reactor Design | 660.28423 TREM Mass transfer operations | 660.284292 GEAC Transport processes and separation process principles. | 660.2844 SCHL Engineering of chemical reactions. |
Featuring case studies and worked examples that illustrate key concepts in the text, this book contains guidelines for scaleup of laboratory and pilot plant results, methods to derive the correct reaction order, activation energy, or kinetic model from laboratory tests, and theories, correlations, and practical examples for 2- and 3-phase reaction systems, including bubble columns, slurry reactions, trickle-led reactors, and fluidized beds. A comprehensive reference, the book offers strategies to analyze and interpret kinetic data for homogeneous and heterogeneous reactions, practical design procedures, rate equations, and analytical models for improved reactor performance.
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