Spraying of liquid fuel for improvement of reforming performance for hydrogen generation
作者: Sang Mo An , Woo Shik Kim , Sang Yong Lee
DOI: 10.1016/J.IJHYDENE.2011.01.171
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摘要: In the present study, effects of spraying conditions on reforming performance were investigated experimentally. Kerosene was used as liquid fuel for and sprayed by a twin fluid nozzle to facilitate uniform mixing with air water (steam) at downstream. The separate mean drop size fuel, position catalytic bed flow rate efficiency analyzed, reasons results discussed examining temperature distribution inside reformer also through visualization during process. overall significantly improved because between reactants enhanced. When distance from became closer, higher achieved larger drops due more rapid penetration into momentum. With amount supply system, reformation promoted high reaction temperature. On other hand, longer bed, poor (due side-wall collision possible formation film along wall) predominated over effects, effect not accordingly observed.
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