Continuous and compact AlPO-34 molecular sieve membranes were successfully synthesized on the outer surface of macroprous tubeα-Al_(2)O_(3)supports under secondary ionothermal growth with the proposed wetting seed la...Continuous and compact AlPO-34 molecular sieve membranes were successfully synthesized on the outer surface of macroprous tubeα-Al_(2)O_(3)supports under secondary ionothermal growth with the proposed wetting seed layer.The recyclable ionic liquids(ILs)can both act as solvent media and the structure-directing agent(SDA)of the aiming topological structure of CHA,largely reducing the wastewater.Wetting the seed layer could accelerate the diffusion of ILs to the surface of the support and further increase the binding force between the membrane and the support.Compared with the open system,the closed system led to the achievement of the high-quality AlPO-34 membrane.The H_(2)permeance of the resulting membrane was 9.74×10^(-8)mol m^(-2)s^(-1)Pa^(-1)and the ideal selectivities of H_(2)/CO_(2),H_(2)/N_(2),H_(2)/CH_(4),H_(2)/C3H8 and H_(2)/i-C4H10 were 7.48,8.54,14.67,39.25 and 65.83,respectively,which were higher than Knudsen diffusion ratios.The obtained membrane was firstly explored for the PV dehydration of isopropyl alcohol(90 wt%)/water mixtures,exhibiting good performance with the separation factor of 147 and high water flux of 1.09 kg m^(-2)h^(-1).展开更多
基金the National Natural Science Foundation of China(Nos.21706022 and 21776032)the Science&Technology Program of Jiangxi Provincial Education Bureau(No.GJJ190557)Jiangxi Provincial Natural Science Foundation of China(No.20202BABL203021)for financial support.
文摘Continuous and compact AlPO-34 molecular sieve membranes were successfully synthesized on the outer surface of macroprous tubeα-Al_(2)O_(3)supports under secondary ionothermal growth with the proposed wetting seed layer.The recyclable ionic liquids(ILs)can both act as solvent media and the structure-directing agent(SDA)of the aiming topological structure of CHA,largely reducing the wastewater.Wetting the seed layer could accelerate the diffusion of ILs to the surface of the support and further increase the binding force between the membrane and the support.Compared with the open system,the closed system led to the achievement of the high-quality AlPO-34 membrane.The H_(2)permeance of the resulting membrane was 9.74×10^(-8)mol m^(-2)s^(-1)Pa^(-1)and the ideal selectivities of H_(2)/CO_(2),H_(2)/N_(2),H_(2)/CH_(4),H_(2)/C3H8 and H_(2)/i-C4H10 were 7.48,8.54,14.67,39.25 and 65.83,respectively,which were higher than Knudsen diffusion ratios.The obtained membrane was firstly explored for the PV dehydration of isopropyl alcohol(90 wt%)/water mixtures,exhibiting good performance with the separation factor of 147 and high water flux of 1.09 kg m^(-2)h^(-1).
