纳米复合膜材料在养殖污水油水分离中的应用及性能评估

曲靖师范学院学报 ›› 2024, Vol. 43 ›› Issue (6): 21-28.

纳米复合膜材料在养殖污水油水分离中的应用及性能评估

姜运山, 吴华健, 余斌, 欧阳银娟, 王静静

池州职业技术学院生物与健康系,安徽池州, 247100

收稿日期:2024-05-13 出版日期:2024-12-17 发布日期:2024-12-17
作者简介:姜运山,池州职业技术学院生物与健康系讲师,主要从事水处理、应用化工、生物化学、生物技术研究
基金资助:
安徽省高校自然科学研究重点项目“碳纳米管复合聚丙烯腈静电纺丝抑菌膜对养殖污水油水分离性能研究”(2023AH053229).

Application and Performance Evaluation of Nanocomposite Membrane Materials in Oil-Water Separation of Aquaculture Wastewater

JIANG Yunshan, WU Huajian, YU Bin, OUYANG Yinjuan, WANG Jingjing

Department of Biology and Health,Chizhou Vocational and Technical College, Chizhou Anhui 247100,China

Received:2024-05-13 Published:2024-12-17 Online:2024-12-17

摘要/Abstract

摘要： 以高分子聚合物PVDF作为主要原材料,制备不同二氧化硅质量分数的多通道结构纳米复合膜材料. 通过SEM形貌、油截留量、油滴接触角和粗糙度测试,评估制备材料在养殖污水油水分离中的性能. 结果显示:二氧化硅质量分数的增加先改善了纳米纤维膜的SEM形貌和相容性,但超过28%会导致膜干裂;含有28%二氧化硅的纳米膜S05在油水分离中表现最佳,油截留率达到最高值,为98%,其高油截留率归因于亲水疏油性和优化的孔隙结构;随着二氧化硅质量分数的增加,油滴接触角先增后减,当膜材料中二氧化硅的质量分数在12%~20%范围内时,油滴的接触角逐渐增大,然而,随着膜材料中二氧化硅的质量分数进一步增加到24%~28%时,油滴的接触角呈现减小趋势,表明适量二氧化硅提升油水分离性能;纳米纤维膜的表面粗糙度随二氧化硅质量分数增加而增大,适度的粗糙度有利于油水分离性能的提升.

关键词: 纳米复合膜材料, 养殖污水, 水刻蚀, 油水分离, 二氧化硅

Abstract: Multi-channel structured nanocomposite membrane materials with different mass fractions of silica is prepared by using polymer PVDF as the main raw material. The performance of the prepared material in oil-water separation of aquaculture wastewater is evaluated through SEM morphology, oil retention, oil droplet contact angle, and roughness testing. The results showed that an increase in the mass fraction of silica first improved the SEM morphology and compatibility of the nanofiber membrane, but exceeding 28% would lead to membrane drying and cracking; the nano film S05 containing 28% silica performed the best in oil-water separation, with the highest oil retention rate of 98%; its high oil retention rate is attributed to its hydrophilicity, oleophobicity, and optimized pore structure; and as the mass fraction of silica increases, the contact angle of oil droplets first increases and then decreases. When the mass fraction of silica in the membrane material is within the range of 12% to 20%, the contact angle of oil droplets gradually increases. However, as the mass fraction of silica in the membrane material further increases to 24% to 28%, the contact angle of oil droplets shows a decreasing trend, indicating that an appropriate amount of silica improves the oil-water separation performance. The surface roughness of nanofiber membranes increases with the increase of silica mass fraction, and moderate roughness is beneficial for improving oil-water separation performance.

Key words: nanocomposite membrane materials, farming wastewater, water etching, oil water separation, silicon dioxide

中图分类号:

TQ028.8

姜运山, 吴华健, 余斌, 欧阳银娟, 王静静. 纳米复合膜材料在养殖污水油水分离中的应用及性能评估[J]. 曲靖师范学院学报, 2024, 43(6): 21-28.

JIANG Yunshan, WU Huajian, YU Bin, OUYANG Yinjuan, WANG Jingjing. Application and Performance Evaluation of Nanocomposite Membrane Materials in Oil-Water Separation of Aquaculture Wastewater[J]. Journal of Qujing Normal University, 2024, 43(6): 21-28.

参考文献

[1] 张慧琳,于鹏,朱慎恪. 二维过渡金属碳化物/氮化物超浸润油水分离膜 [J]. 化工科技, 2023, 31 (3): 96-102.
[2] 黄庆林,郑涵文,杜雄飞,等. PVDF纳米纤维膜的制备及其油水分离性能 [J]. 天津工业大学学报, 2023, 42 (6): 10-16.
[3] 杜汶骏,徐朱宏,徐渊强,等. 基于壳聚糖的纳米纤维膜在空气过滤及油水分离领域的应用 [J]. 东华大学学报(自然科学版), 2023, 49 (6): 66-72.
[4] 宁连超,韩雅欣,李群星,等. 改性废弃口罩熔喷布疏水膜的制备及油水分离性能 [J]. 高校化学工程学报, 2023, 37 (5): 760-768.
[5] 俞赫威,李成才,徐毅辉,等. 超亲水PVDF纤维复合膜的制备及其油水分离性能研究 [J]. 水处理技术, 2023, 49 (5): 36-39+44.
[6] 顾欣悦,徐国纲,王超,等. 莫来石晶须陶瓷膜的制备及其油水分离性能 [J]. 山东科技大学学报(自然科学版), 2023, 42 (2): 70-77.
[7] 杨冬,杨凯棣,贾彤彤,等. 静电纺聚偏二氟乙烯纤维膜的制备及其在油水分离中的应用 [J]. 陕西科技大学学报, 2023, 41 (2): 78-87.
[8] 王海荣,黄琪雯,彭锋,等. 复印纸基油水分离膜材料的制备与性能 [J]. 林业工程学报, 2023, 8 (1): 96-103.
[9] 方健,凌亿锋,沈雄,等. 卧式斜板重力除油器油水分离性能影响因素分析 [J]. 中国海上油气, 2022, 34 (6): 188-195.
[10] 郎集会,陈诺,梁慧聪,等. TiO_2基油水分离膜的合成及其在油水分离中的应用 [J]. 吉林师范大学学报(自然科学版), 2022, 43 (4): 17-24.
[11] 花绍强,周志辉,吴红丹,等. MoS_2/MXenes/PES复合膜的制备及其油/水分离性能 [J]. 武汉科技大学学报, 2022, 45 (6): 430-437.
[12] 陈微微,陈妍,夏孟胜,等. 超亲水天然多酚改性膜的制备及其油水分离性能 [J]. 精细化工, 2023, 40 (4): 829-837.
[13] 韩云娇,王晨轩,田素然,等. 原料粒度与膜形状对炭膜油水分离性的影响 [J]. 山东化工, 2022, 51 (18):20-22.
[14] 洪汉火,廖腾飞,唐其金,等. 海藻酸钠/聚乙烯醇/尼龙复合膜在油水分离中的应用研究 [J]. 化工新型材料, 2022, 50 (7): 267-272.
[15] 袁茹欣,陈文革,栗雯绮,等. 基于油水分离的氧化石墨烯/二氧化硅复合膜的制备与性能研究 [J]. 膜科学与技术, 2022, 42 (3): 97-105.
[16] 雷龙旺,姚志阳,余音,等. 短纤维复合材料微观模型重构方法[J]. 计算机仿真,2023,40(10):300-306.
[17] 柳敦雷,陆佳颖,薛甜甜,等. 超疏水隔热聚酯纳米纤维/二氧化硅气凝胶复合膜的制备及其性能[J]. 纺织学报,2023,44(7):18-25.
[18] 任茜,王学伟,李霄,等. 无色透明聚酰亚胺-二氧化硅纳米复合薄膜的制备与性能[J]. 绝缘材料,2023,56(2):54-62.