Efficient (Bio)emulsification/Degradation of Crude Oil Using Cellulose Nanocrystals

Petr Sitnikov, Philipp Legki, Mikhail Torlopov, Yulia Druz, Vasily Mikhaylov, Dmitriy Tarabukin, Irina Vaseneva, Maria Markarova, Nikita Ushakov, Elena Udoratina
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Abstract

This study has investigated the influence of cellulose nanocrystals (CNCs) with partially acetylated surfaces on the formation, stability, rheology and biodegradability of the Pickering emulsion in a crude oil/water (co/w) system. In all investigated systems, it was observed that the CNC concentrations of 7 mg/mL led to the emulsions showing stability over time. It was also noticed that the increase in concentration of background electrolyte (NaCl) leds to the droplets of emulsions becoming smaller. It was demonstrated that the rheology of the o/w emulsions of the oil products and crude oil stabilized by CNCs depends, to a large extent, on the colloid chemical properties of nanocellulose particles. Calculations and experimental methods were used to study the changes in the acid–base properties of CNCs on the surface of emulsion droplets, depending on a type of hydrophobic components (crude oil and liquid paraffin). The formation of Pickering emulsions leads to the oxidation of oil by Rhodococcus egvi in aerobic conditions becoming more effective, provided that the environment includes mineral salts of nitrogen, potassium and phosphorus. The results obtained present a scientific basis for the development of technologies for the disposal of oil spills on water surfaces.
利用纤维素纳米晶体高效(生物)乳化/降解原油
本研究研究了表面部分乙酰化的纤维素纳米晶(cnc)对原油/水(co/w)体系中Pickering乳状液形成、稳定性、流变性和可生物降解性的影响。在所有研究的体系中,观察到CNC浓度为7 mg/mL导致乳液随着时间的推移表现出稳定性。本底电解质(NaCl)浓度的增加导致乳状液液滴变小。结果表明,纳米纤维素颗粒的胶体化学性质在很大程度上决定了石油产品和原油的油/水乳液的流变性。采用计算和实验方法研究了不同疏水组分(原油和液体石蜡)对乳液液滴表面cnc酸碱性质的影响。皮克林乳状物的形成导致在有氧条件下卵黄红球菌对油的氧化变得更加有效,前提是环境中含有氮、钾和磷的矿物盐。所得结果为开发水面溢油处理技术提供了科学依据。
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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