用于丁烷异构体分离的工业规模 61 通道硅石-1 整体膜

Hongliang Hong , Kunlin Yu , Hongbin Liu, Rongfei Zhou, Weihong Xing
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引用次数: 0

摘要

开发节能膜和技术对于分离碳氢化合物异构体以取代高能耗的蒸馏非常重要。硅灰石-1 膜是一种前景广阔的膜材料,但很难实现规模化生产。在这项研究中,首次报道了工业规模的硅灰石-1 整体膜在实际丁烷混合物中的分离性能。每张 61 道整体膜的有效面积和表面体积比分别为 0.2 平方米和 400 平方米/立方米,分别是相同长度普通管状膜的 20 倍和 5.6 倍。工业规模膜的正丁烷/异丁烷平均分离因子(34)甚至高于或相当于已报道的小面积沸石膜。研究了测试参数对膜的渗透率和分离因数以及长期稳定性的影响。使用雷诺数将浓度极化(CP)与分离性能的降低联系起来。提出了减少 CP 影响的解决方案。这表明工业规模的高性能硅灰石-1 整体膜适用于丁烷分离的实际应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Industrial-scale 61-channel monolithic silicalite-1 membranes for butane isomer separation

Industrial-scale 61-channel monolithic silicalite-1 membranes for butane isomer separation

Developing energy-saving membrane and technology is important for the separation of hydrocarbon isomers to replace the energy-intensive distillation. Silicalite-1 membrane is a promising membrane material but difficult to be scaled up. In this work, separation performance of industrial-scale monolithic silicalite-1 membranes in term of actual butane mixtures has been reported for the first time. Each 61-channel monolithic membrane has effective area and surface-to-volume ratio of 0.2 ​m2 and 400 ​m2/m3, which are about 20 and 5.6 times higher than that of the common tubular one with the same length, respectively. Average n-butane/i-butane separation factor (34) of the industrial-scale membranes was even higher than or comparable to that of the reported small-area zeolite membranes. The influences of test parameters on permeances and separation factors of the membranes and the long-term stability were examined. Reynold numbers was used to correlate the concentration polarization (CP) with the reduction of separation performance. A solution was proposed to reduce the effect of CP. It suggests that the industrial-scale and high-performance monolithic silicalite-1 membranes are suitable for actual applications of butane separation.

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