| SiO2改性聚丙烯纤维棉对油水乳状液的高效分离 |
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| 引用本文: | 于丹凤,张振强,赵益忠,钱钦,郑成,吴旭.SiO2改性聚丙烯纤维棉对油水乳状液的高效分离[J].精细化工,2021,38(9). |
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| 作者姓名: | 于丹凤 张振强 赵益忠 钱钦 郑成 吴旭 |
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| 作者单位: | 广州大学化学化工学院,广州大学化学化工学院,中国石油化工股份有限公司胜利油田分公司石油工程技术研究院,中国石油化工股份有限公司胜利油田分公司石油工程技术研究院,广州大学化学化工学院,广州大学化学化工学院 |
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| 摘 要: | 近年来,基于特殊润湿性理论制备表面具有微纳米粗糙结构的多孔材料成为油水分离领域研究的重点。为了满足不同环境下对不同形式油-水乳状液高效高通量分离的需求,该研究利用纳米SiO2颗粒对聚丙烯(PP)纤维棉有针对性地亲(疏)水改性,构建了系列不同润湿性和粗糙度的PP纤维棉,探究了不同孔隙度和表面能的PP纤维棉对W/O及O/W型乳状液的分离性能,结果表明,经过亲(疏)水改性后的PP纤维棉对水/正己烷和水/甲苯乳状液的分离效率都高于99.5%,通量高于700 L/(m2·h),并针对不同形式油-水乳状液阐释其相应的分离机制,为后续油-水乳状液分离材料的科学设计和可控制备提供了理论依据。
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| 关 键 词: | 油水分离 聚丙烯纤维棉 亲水改性 疏水 |
| 收稿时间: | 2021/3/9 0:00:00 |
| 修稿时间: | 2021/5/13 0:00:00 |
Efficient separation of oil-water emulsion by SiO2-modified PP fabrics |
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| YU Danfeng,ZHANG Zhenqiang,ZHAO Yizhong,QIAN Qin,ZHENG Cheng and WU Xu.Efficient separation of oil-water emulsion by SiO2-modified PP fabrics[J].Fine Chemicals,2021,38(9). |
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| Authors: | YU Danfeng ZHANG Zhenqiang ZHAO Yizhong QIAN Qin ZHENG Cheng and WU Xu |
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| Affiliation: | Guangzhou University,Guangzhou University,Research Institute of Petroleum Engineering and Technology, Shengli Oilfield Company, SINOPEC,Research Institute of Petroleum Engineering and Technology, Shengli Oilfield Company, SINOPEC,Guangzhou University,Guangzhou University |
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| Abstract: | Recently, the fabrication of porous materials with micro/nano rough structures based on the models of special wettability have attracted considerable attention in the field of oil-water separation. In order to satisfy demands of highly efficient and high flux gravity directed oil-water emulsions separation in different situations, in this study, a series of polypropylene (PP) fabrics with different super wettability and roughness are fabricated by modifying the PP fabrics with different amounts of SiO2 nanoparticles. The performances of W/O and O/W emulsions separated by PP fabrics with different pore size and surface energy were experimentally observed, and the results showed that, the modified fabrics exhibited excellent water/n-hexane and water/toluene emulsion separation performance with separation efficiencies > 99.5% and fluxs > 700 L/(m2·h). Furthermore, the corresponding separation mechanisms were investigated, which provide a theoretical basis for the scientific design and controllable fabrication of future oil-water emulsion separation materials. |
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| Keywords: | Oil-water separation PP membrane Hydrophilic modification Hydrophobic |
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