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首页> 外文期刊>Separation and Purification Technology >Carbon nanotube immobilized membrane with controlled nanotube incorporation via phase inversion polymerization for membrane distillation based desalination
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Carbon nanotube immobilized membrane with controlled nanotube incorporation via phase inversion polymerization for membrane distillation based desalination

机译:具有受控纳米管的碳纳米管固定化膜通过相转移聚合对膜蒸馏的脱盐

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摘要

In this paper, we present an optimized method for carbon nanotube immobilization on membrane surface for seawater desalination via direct contact membrane distillation (DCMD). Carbon nanotube immobilized membranes (CNIM) are fabricated via phase inversion technique using a controlled approach for carbon nanotube (CNT) incorporation which provides additional pathways for water vapor diffusion. Surface morphology differed for membranes fabricated with varying PVDF concentrations which altered the CNT distribution and its interaction with water vapor. The water vapor flux by CNIM membrane was as high as 51.4 L/m(2) hr, which was 76% higher than the unmodified support membrane at 60 degrees C. No significant salt leakage was observed with modified membrane. The overall mass-transfer coefficient for phase inversion membrane was nearly 1.8 times higher than unmodified membrane.
机译:本文通过直接接触膜蒸馏(DCMD),对海水脱盐进行海水脱盐的碳纳米管固定化优化方法。 通过使用受控碳纳米管(CNT)掺入的相反方法通过相倒置技术制造碳纳米管固定化膜(CNIM),其为水蒸气扩散提供额外的途径。 表面形态不同,具有改变CNT分布及其与水蒸气的CNT分布及其相互作用的不同PVDF浓度的膜。 CNIM膜的水蒸气通量高达51.4升/米(2)小时,比在60℃下的未改性的支撑膜高76%。用改性膜未观察到显着的盐泄漏。 相倒置膜的总传质系数比未改性膜高接近1.8倍。

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