Monolithic Catalysts for Nonautomobile Applications
- 1 August 1988
- journal article
- research article
- Published by Taylor & Francis in Catalysis Reviews
- Vol. 30 (3), 341-392
- https://doi.org/10.1080/01614948808080809
Abstract
The use of monoliths in automotive emission control systems has dominated the applications of monoliths. However, other applications have also become of interest due to unique features of monoliths. Several excellent reviews on emission control [1–3] and catalytic oxidations [4] have been published during the last few years. Deluca and Campbell [5] have reviewed monoliths used as catalyst supports. This paper reviews flow characterization, heat and mass transfer, mathematical modeling, properties of monolithic supports, and nonautomobile applications of monoliths.Keywords
This publication has 64 references indexed in Scilit:
- Mass transfer and selectivity in liquid-phase hydrogenation of nitro compounds in a monolithic catalyst reactor with segmented gas-liquid flowIndustrial & Engineering Chemistry Process Design and Development, 1986
- Kinetic evaluation and characterization of ceramic honeycomb-monolith bioreactorJournal of Fermentation Technology, 1986
- The segmented two-phase flow monolithic catalyst reactor. An alternative for liquid-phase hydrogenationsIndustrial & Engineering Chemistry Fundamentals, 1984
- Solid-liquid mass transfer in segmented gas-liquid flow through a capillaryIndustrial & Engineering Chemistry Fundamentals, 1982
- Benzene hydrogenation on nickel/honeycomb catalystsReaction Kinetics and Catalysis Letters, 1982
- Catalytic activity of honeycomb catalysts, I. The benzene-cyclohexane (de)hydrogenation reactionReaction Kinetics and Catalysis Letters, 1981
- The Segmented Oxidizing Monolith Catalytic Converter: Theory and PerformanceJournal of Heat Transfer, 1980
- The Oxidation of Ethene in an Empty and Packed Tubular Wall Reactor Operating in the Reaction- and Diffusion-Controlled RegimesThe Chemical Engineering Journal, 1980
- Some Characteristics of Two-Phase Flow in Monolithic Catalyst StructuresIndustrial & Engineering Chemistry Fundamentals, 1977
- Reduction of Nitric Oxide by Monolithic-Supported Palladium-Nickel and Palladium-Ruthenium AlloysProduct R&D, 1975