Modification of kapok cotton fibres into porous cellulose triacetate beads for oil spill remediation efforts

IF 1.8 4区材料科学 Q4 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY

Green Materials Pub Date : 2022-05-23 DOI:10.1680/jgrma.21.00064

Kang Zhi Yong, J. Zachariah, E. Chiang, M. Yoon

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引用次数: 1

Abstract

Marine oil spills have been widely reported and bioremediation is proposed to be an environmentally friendly approach to clean these spills. However, maintaining a high biomass of oil-degrading bacteria has been proven challenging. Here, a carrier that enables simultaneous bacterial immobilization and oil absorption is proposed as a solution. Porous cellulose triacetate beads (PCTBs) derived from cellulose triacetate powder was obtained through the acetylation of kapok fibres. This study revealed that PCTBs with both 12.5% and 16.67% w/v precipitated in distilled water showed greater crude oil absorbency of 2.4850 ± 0.1326 g/g and 1.9852 ± 0.2343 g/g, respectively. Reusability tests of PCTBs showed promising results with no reduction in oil absorption after five reabsorption cycles. Successful immobilization of the oil-degrading bacteria, Acinetobacter venetianus on PCTBs was achieved and enumeration of bacteria showed no statistically significant differences compared to those on kapok fibres despite the raw fibres having a larger surface area. The SEM analysis revealed that A. venetianus adhered to the outer and inner walls of the beads through secreted exopolysaccharides. PCTBs with oil-degrading bacteria are potentially able to simultaneously absorb and degrade oil, thus highlighting the novelty of a working alternative to sustainable oil spill mitigation.

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木棉纤维改性成多孔三醋酸纤维素微珠用于溢油修复

海洋溢油已被广泛报道，生物修复被认为是一种环境友好的方法来清理这些溢油。然而，保持高生物量的石油降解细菌已被证明是具有挑战性的。在这里，提出了一种能够同时固定细菌和吸油的载体作为解决方案。以三乙酸纤维素粉为原料，通过木棉纤维的乙酰化反应制备了多孔三乙酸纤维素微球。结果表明，在蒸馏水中沉淀12.5% w/v和16.67% w/v时，PCTBs的原油吸收率分别为2.4850±0.1326 g/g和1.9852±0.2343 g/g。PCTBs的重复使用试验表明，经过5次再吸收循环后，PCTBs的吸油率没有降低。成功地将油降解细菌威尼斯不动杆菌固定在PCTBs上，尽管原料纤维具有更大的表面积，但细菌计数与木棉纤维相比没有统计学上的显著差异。扫描电镜分析表明，金针菇通过分泌的外多糖粘附在珠的内外壁上。含有石油降解细菌的多氯联苯有可能同时吸收和降解石油，从而突出了可持续减少溢油的工作替代方案的新颖性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Green Materials Environmental Science-Pollution

CiteScore

3.50

自引率

15.80%

发文量

期刊介绍： The focus of Green Materials relates to polymers and materials, with an emphasis on reducing the use of hazardous substances in the design, manufacture and application of products.