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Indexed by:期刊论文
Date of Publication:2011-05-15
Journal:JOURNAL OF MEMBRANE SCIENCE
Included Journals:SCIE、EI
Volume:374
Issue:1-2
Page Number:83-92
ISSN No.:0376-7388
Key Words:Carbon/SAPO-34 composite membrane; Microporous; H(2)/CH(4) separation; CO(2)/CH(4) separation
Abstract:Thin carbon/SAPO-34 microporous composite membranes, in which SAPO-34 particles were dispersed into a carbon matrix, were successfully fabricated on porous a-Al(2)O(3) tubes. The SAPO-34 molecular sieve content in the membrane precursor solution and coating cycles had a significant influence on the separation performance of the composite membranes. The membrane (M1) with a SAPO-34 content of 2 wt.% that was dip-coated twice demonstrated the best performance for gas separation. This membrane exhibited improved ideal selectivities for H(2)/CH(4), CO(2)/CH(4) and H(2)/SF(6) of 97,87 and 250, respectively, with a reduced H(2) permeance of 10x10(-8) mol m(2) Pa(-1) s(-1). However, the H(2)/CH(4) and CO(2)/CH(4) of the pure carbon membrane were 64 and 40, respectively, at 298 K with a pressure drop of 0.1 MPa.
The CO(2)/CH(4) and H(2)/CH(4) selectivities of membrane M1 were as high as 258 and 112, respectively, for the equimolar mixture of CO(2)/CH(4) and H(2)/CH(4), which was larger than the corresponding ideal selectivities of 87 and 97 at 298K, under a 0.1 MPa pressure drop. This effect was due to the blocked permeation of nonadsorbable gas by an adsorbed component or the competitive diffusion effect. It was found that the CO(2)/CH(4) and H(2)/CH(4) separation selectivities decreased with increasing temperature and pressure difference. These results suggest that the SAPO-34 offers multiple roles in the improved selectivity by reducing pore size of carbon/SAPO-34 membrane and by its preferential adsorption and diffusion characteristics. (C) 2011 Elsevier B.V. All rights reserved.