Synthesis of thin DD3R zeolite membranes on hollow fibers using gradient-centrifuged seeds for CO2/CH4 separation

IF 4.9 Q1 ENGINEERING, CHEMICAL Journal of Membrane Science Letters Pub Date : 2023-05-01 DOI:10.1016/j.memlet.2023.100038
Yue Zhou , Peng Du , Zhifei Song, Xinfa Zhang, Yu Liu, Yuting Zhang, Xuehong Gu
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引用次数: 1

Abstract

All-silica DD3R zeolite has been recognized as a promising CO2-selective membrane material owing to its appropriate pore size (0.36 nm × 0.44 nm), strong hydrophobicity, excellent thermal and chemical stabilities. In order to reduce membrane cost, it is meaningful to synthesize thin DD3R zeolite membranes that possess high gas permeance. In this work, high-performance DD3R zeolite membranes were synthesized on TiO2/α-Al2O3 composite hollow fibers by secondary growth method. Sigma-1 zeolite seeds were ball-milled and then fractionated into different-sized seeds by gradient centrifugation. Smaller seed particles were collected after centrifuged at higher rotation speed rate. A very thin and dense DD3R zeolite membrane (thickness: 1.2 µm) was synthesized by using the smallest seeds (ZS4) with average particle size of 163 nm, which were obtained from the supernatant of the third centrifugation at 11,000 rpm. The as-synthesized membranes were employed in separation of equimolar CO2/CH4 mixture. Compared with the original ball-milled seeds (ZS1)-induced membrane, the seed ZS4-induced membrane exhibited an improved CO2 permeance of 1.2 × 10−7 mol m−2 Pa−1 s−1 by 62%. All the resultant membranes performed good CO2/CH4 separation selectivities between 262 and 364.

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用梯度离心种子在中空纤维上合成DD3R沸石薄膜用于CO2/CH4分离
全硅DD3R沸石因其合适的孔径(0.36nm×0.44nm)、强疏水性、优异的热稳定性和化学稳定性而被认为是一种很有前途的CO2选择性膜材料。为了降低膜的成本,合成具有高透气性的薄DD3R沸石膜是有意义的。本工作采用二次生长法在TiO2/α-Al2O3复合中空纤维上合成了高性能DD3R沸石膜。Sigma-1沸石种子被球磨,然后通过梯度离心分离成不同大小的种子。在以较高转速离心后收集较小的种子颗粒。使用平均粒径为163nm的最小种子(ZS4)合成了非常薄且致密的DD3R沸石膜(厚度:1.2µm),这些种子是在11000rpm下从第三次离心的上清液中获得的。将合成的膜用于等摩尔CO2/CH4混合物的分离。与原始球磨种子(ZS1)诱导的膜相比,种子ZS4诱导的膜表现出1.2×10−7 mol m−2 Pa−1 s−1的CO2渗透率提高了62%。所有得到的膜在262和364之间表现出良好的CO2/CH4分离选择性。
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