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Reaction/separation coupled equilibrium modeling of steam methane reforming in fluidized bed membrane reactors

✍ Scribed by Donglai Xie; Weiyan Qiao; Ziliang Wang; Weixing Wang; Hao Yu; Feng Peng

Publisher
Elsevier Science
Year
2010
Tongue
English
Weight
635 KB
Volume
35
Category
Article
ISSN
0360-3199

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✦ Synopsis

An equilibrium model of steam methane reforming coupled with in-situ membrane separation for hydrogen production was developed. The model employed Sievert's Law for membrane separation and minimum Gibbs energy model for reactions. The reforming and separation processes were coupled by the mass balance. The model assumed a continuously stirred tank reactor for the fluidized bed hydrodynamics. The model predictions for a typical case were compared with those from the model of Ye et al. [15] which assumed a plug flow for bed hydrodynamics. The model predictions show satisfactory agreement with experimental data in the literatures. The influences of reactor pressure, temperature, steam to carbon ratio, and permeate side hydrogen partial pressure on solid carbon, NH x and NO x formation were studied using the model.

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Equilibrium shifts of methane steam reforming in membrane reactors consisting of either tetramethoxysilane-derived amorphous hydrogen-selective silica membrane and rhodium catalysts, or hexamethyldisiloxane-derived membrane and nickel catalysts is experimentally demonstrated. The hexamethyldisiloxan