Catalytic combustion is an emerging technology that enables combustion of ultra-lean mixtures, leading to very low NOx emissions as a result of the low combustion temperatures. While it is now clear that combustion catalysts can be engineered into practical combustion systems, the essential surface-chemistry processes are not at all well understood. Therefore, optimal design and control is limited by a lack of fundamental understanding. In practical systems, the need for high catalyst surface area (e.g., a honeycomb monolith) obscures the surface itself from diagnostics probing and thus frustrates the collection of needed fundamental data. Laboratory-based experiments that use idealized geometries are required to probe the catalytic surfaces themselves and the adjacent gas-phase boundary layers. This paper develops a set of scaling laws that reveal how the effects of buoyancy restrict the use and interpretation of terrestrial laboratory-based experiments for the discovery of fundamental catalytic chemistry. The paper also shows how a microgravity environment can be used to great advantage to relax the buoyancy-included constraints of the terrestrial laboratory.


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    Title :

    Opportunities for microgravity research in the development of practical catalytic combustion systems


    Contributors:

    Conference:

    Space technology and applications international forum - 1998 ; 1998 ; Albuquerque,New Mexico (USA)


    Published in:

    AIP Conference Proceedings ; 420 , 1 ; 840-846


    Publication date :

    1998-01-15


    Size :

    7 pages





    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



    Opportunities for Microgravity Research in the Development of Practical Catalytic Combustion Systems

    Kee, R. J. / Raja, L. / University of New Mexico; School of Engineering; Institute for Space and Nuclear Power Studies | British Library Conference Proceedings | 1998




    Microgravity Combustion Research in Japan

    Sato, J. | British Library Conference Proceedings | 1996