[1]陆慧慧,刘梅红,俞三传.聚偏氟乙烯超滤膜深度处理印染废水膜污染机理研究[J].浙江理工大学学报,2022,47-48(自科二):224-230.
LU Huihui,LIU Meihong,YU Sanchuan.Study on fouling mechanism of PVDF ultrafiltration membrane in advanced treatment of printing and dyeing wastewater[J].Journal of Zhejiang Sci-Tech University,2022,47-48(自科二):224-230.
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聚偏氟乙烯超滤膜深度处理印染废水膜污染机理研究(
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LU Huihui,LIU Meihong,YU Sanchuan.Study on fouling mechanism of PVDF ultrafiltration membrane in advanced treatment of printing and dyeing wastewater[J].Journal of Zhejiang Sci-Tech University,2022,47-48(自科二):224-230.
)浙江理工大学学报[ISSN:1673-3851/CN:33-1338/TS]
- 卷:
- 第47-48卷
- 期数:
- 2022年自科第二期
- 页码:
- 224-230
- 栏目:
- 出版日期:
- 2022-03-10
文章信息/Info
- Title:
- Study on fouling mechanism of PVDF ultrafiltration membrane in advanced treatment of printing and dyeing wastewater
- 文章编号:
- 1673-3851 (2022) 03-0224-07
- 分类号:
- TQ028-8
- 文献标志码:
- A
- 摘要:
- 采用切割分子量为120000 g/mol的聚偏氟乙烯(PVDF)外压式中空纤维超滤膜,研究超滤膜深度处理印染废水的膜污染机理。利用阻力串联模型,研究了超滤膜污染的分布;采用恒通量加压错流过滤方式,通过单因素实验,分析了造成超滤膜污染的主要因素。结果表明:PVDF超滤膜在深度处理印染废水过程中膜污染以表面污染为主,污染物在膜表面吸附沉积形成滤饼层,滤饼层产生的过滤阻力占膜污染造成的过滤阻力的75.5%,而污染物在膜孔内吸附沉积造成膜孔变窄或堵塞引起的过滤阻力仅占24.5%;废水所含高分子助剂,如聚丙烯酰胺(PAM)、聚乙烯醇(PVA)和羧甲基纤维素(CMC)等,是造成膜污染的主要因素;在恒定水通量75.0 L/(m 2·h)下,过滤3.0 mg/L的PAM和PVA水溶液,跨膜压差的上升速率高达50 kPa/h,过滤污染相对较轻的CMC水溶液,在25.0 mg/L质量浓度时跨膜压差的上升速率为10 kPa/h。研究结果可为超滤膜深度处理印染废水过程中的膜污染控制提供一定的指导作用。
参考文献/References:
[1] Pandey A. Concise Encyclopedia of Bioresource Technology[M]. New York: The Haworth Press, 2004:167-175.
[2] Chethana M, Sorokhaibam L G, Bhandari V M, et al. Green approach to dye wastewater treatment using biocoagulants[J]. ACS Sustainable Chemistry and Engineering, 2016, 4(5):2495-2507.
[3] 田洋名, 姚菊明, 张勇, 等. 纤维素基絮凝-脱色复合功能材料制备及其处理染料溶液效果评价[J]. 浙江理工大学学报(自然科学版), 2018, 39(3): 284-291.
[4] Marrot B, Roche N. Wastewater treatment and reuse in textile industries, A review[J]. Research Advances in Water Research, 2002, 3:41-53.
[5] 秦彬, 谷晋川, 殷萍, 等. 染料废水处理技术研究进展[J]. 化工环保,2021, 41(1): 9-18.
[6] De Jager D, Sheldon M S, Edwards W. Colour removal from textile wastewater using a pilotscale dualstage MBR and subsequent RO system[J]. Separation and Purification Technology, 2014, 135(15): 135-144.
[7] Gillerman L, Bick A, Buriakovsky N, et al. Secondary wastewater polishing with ultrafiltration membranes for unrestricted reuse: fouling and fluxing modeling [J]. Environmental Science and Technology, 2006, 40(21): 6830-6836.
[8] 桂双林, 麦兆环, 付嘉琦, 等.超滤膜处理稀土冶炼废水过程膜污染特性分析[J]. 膜科学与技术, 2020, 40(5): 77-84.
[9] 胡峰, 陈锋涛, 俞三传. PVDF膜表面两性离子化改性及其性能[J]. 浙江理工大学学报(自然科学版), 2020, 43(6): 774-780.
[10] Laksono S, Elsherbiny I M A, Huber S A, et al. Fouling scenarios in hollow fiber membranes during miniplant filtration tests and correlation to microalgaeloaded feed characteristics[J]. Chemical Engineering Journal, 2021, 420(1): 127723.
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备注/Memo
- 备注/Memo:
-
收稿日期:2021-09-13
网络出版日期:2021-11-08
基金项目:浙江省重点研发计划项目(2021C03172)
作者简介:陆慧慧(1995-),女,安徽亳州人,硕士研究生,主要从事分离膜材料及水处理技术研究
通信作者:俞三传,E-mail:yuschn@163.com
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