Structured catalysts and reactors
Author(s)
Bibliographic Information
Structured catalysts and reactors
(Chemical industries, v. 71)
M. Dekker, c1998
Available at 1 libraries
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  Miyazaki
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  Okinawa
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Note
Includes bibliographical references and index
Description and Table of Contents
Description
Offering discussions of structured catalysts and up-to-date approaches to catalytic processes, this work describes monolithic, membrane and arranged catalysts for use in two- and three-phase processes. It examines catalyst preparation, characterization, process development, modelling and optimization, as well as reactor design and operation.
Table of Contents
- The present and the future of structured catalysts - an overview. Reactors with structured catalysts where no convective mass transfer over a cross section of the reactor occurs (monolithic catalysts = honeycomb catalysts): ceramic catalyst supports for casoline fuel
- metal and coated-metal catalysts
- autocatalysts - past, present and future
- monolithic catalysts for the selective reduction of NOx with NH3 from stationary monolith reactors
- unconventional utilization of monolithic catalysts for gas-phase reactions
- modelling of monolithic reactors for automotive exhaust gas treatment
- the use of monolithic catalysts for three-phase reactions
- modelling of monolith reactors in three-phase processes
- monolithic reactors for countercurrent gas-liquid operation. Reactors with structured catalysts where convective mass transfer over the cross section of the reactor occurs: parallel-passage and lateral-flow reactors
- bead-string reactor
- open cross-flow-channel catalysts and catalyst supports
- catalytic supports
- catalytic filters for flue gas cleaning
- monolithic reactors with permeable walls (membrane reactors): reactors with metal and metal-containing membranes
- inorganic-membrane reactors
- ceramic catalyst support and filters for diesel exhaust aftertreatment
- polyethylene terephthalate
- crow-flow reactors with permeable walls. Catalyst preparation and characterization: transformation of a structured carrier into structured catalyst
- computer-aided characterization and design of catalyst pore structure.
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