| Structural design analysis of nanofiltration membrane system |
| Authors: BI Fei[1] , Liu Fuliang[1] , Zhai Lihua[3] , Jing Dawei[2] |
| Units: 1.Memsino Membrane Technology Co.,Ltd , Beijing 100082; 2.Tianjin Chengjian University ,Tianjin 300384; 3. Institute of Scientific and Technical Information of China, Beijing 100038 |
| KeyWords: NF technology; system structural design; system flux balance; system flow length |
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| year,volume(issue):pagination: 2018,38(5):99-103 |
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Abstract: |
| By analyzing the structural design of nanofiltration system in the process of water treatment, this article has revealed the effect of flux imbalance on nanofiltration system process; emphasized the feasibility of high ratio of concentrated to fresh water in nanofiltration system; defined the relationship between flow length and various economic and technical indicators as flux imbalance, concentration polarization, system salt rejection, energy consumption and investment cost; proved that structural of nanofiltration system with low pressure and salt rejection should be designed as short process, which should be different from reverse osmosis system. |
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AuthorIntro: |
| 第一作者简介:毕飞(1979—),男,汉族,内蒙古包头人,工学博士,主要研究方向:分离膜水处理 通讯作者:靖大为,E-mail:david_j5996@sina.com |
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Reference: |
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[1] 朱长乐. 膜科学技术[M] 北京:高等教育出版社,2004.6:229-240 [2] Zhai Lihua, Pan Yuntao, Guo Yu,et al. International comparative study on nanofiltration membrane technology based on relevant publications and patents[J], Scientometrics, 2014,101(2):1361-1374. [3] 靖大为. 反渗透系统优化设计与运行[M] 北京:化学工业出版社,2016.2:81-83 [4] 贾丽媛. 反渗透系统膜通量均衡工艺[J] 水处理技术 2005. 31(01):11-15 [5] 毕 飞. 饮用水纳滤深度处理系统优化设计[D] 浙江:浙江大学,2016.5:3-5 [6] 严丹燕. 关于反渗透系统中的均衡通量问题[J] 亚洲给水排水 2011.07/08:22-23 |
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