Science and technology in catalysis 2006 : proceedings of the fifth Tokyo Conference on Advanced Catalytic Science and Technology, Tokyo, July 23-28, 2006
著者
書誌事項
Science and technology in catalysis 2006 : proceedings of the fifth Tokyo Conference on Advanced Catalytic Science and Technology, Tokyo, July 23-28, 2006
(Studies in surface science and catalysis, v. 172)
Kodansha , Elsevier, 2007
- : Elsevier
- : Kodansha
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注記
Some accompanied by 1 CD-ROM (c2007 by Kodansha)
Includes bibliographical references and index
Depends on back cover(: Kodansha): "発売元: ニュートリノ"
内容説明・目次
内容説明
Unsteady-state operations of catalytic reactors provide plentiful opportunities for research and commercial realization of efficient heterogeneous catalytic processes. Forced unsteady state conditions generate unique distributions of process parameters and catalyst states often unattainable with traditional, steady-state operation. The unsteady-states can be created by periodic changes in input flow parameters, such as changes in inlet temperature and composition, catalyst circulation through reaction and regeneration zones, or periodic flow reversals through fixed catalyst bed. This can result in increased productivity, selectivity, capital savings and operating cost reduction (higher energy efficiency). Efficient environmental technologies for treatment of toxic emissions, acid rain and greenhouse gas emissions can also be developed using the unsteady-state concept. The Proceedings communicate recent progress in these areas of research and promote future development. The aims are to establish relations between academia, industry, engineers and scientists from all over the world, to stimulate new catalytic technologies as well as fundamental research, and to create new concepts for the development of effective catalytic systems. It presents the most up-to-date research in catalysis.
目次
* Dynamic Processes on the Catalyst Surface
* Fundamental and Applied Aspects of the Dynamic Behavior of Catalytic Reactors
* Forced Unsteady-State Operations
* Reactor Operation with Flow Reversal
* Unsteady-state Catalytic Reactors for Environmental Protection
* Micro Catalytic Reactors
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