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低浓度范围内盐浓度对纳滤膜截留性能的影响 被引量:10

Effects of salt concentration on rejection of nanofiltration membrane in the low concentration range
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摘要 采用Desal-DK有机纳滤膜分别对低浓度范围(1~50mol/m^3)的KCl、NaCl、Na_2SO_4、K_2SO_4、MgCl_2水溶液进行纳滤实验,考察盐的浓度及类型对截留率的影响,结合道南细孔-介电DSPM-DE模型计算等效荷电密度(Xd),孔内介电常数(εp),采用DSPM模型计算等效膜孔半径(rp),研究不同类型盐的截留率变化和Xd、εp、rp的关系.结果表明,Na_2SO_4、K_2SO_4的截留率变化趋势和KCl、NaCl相同,随着盐浓度的增加而降低,其原因归结于随着浓度的增加|Xd|增加,电荷屏蔽作用增强,道南电势减弱;MgCl_2的截留率随着盐浓度的增加而升高,原因是浓度的增加Mg^(2+)与膜的羧基不断发生特性结合,|Xd|升高,εp降低,静电排斥作用变大和介电排斥作用增强的双重作用. Salt solutions(KCl, NaCl, Na2S04 , K 2S0 4 , MgCl2) were filtrated with a commercially available DK nanofiltration membrane to evaluate effects of concentration and type of salt in the feed side on the membrane performance, the concentration of them was in the range from 1 to 50 mol/m3. The Donnan steric pore and dielectric exclusion (DSPM-D E ) model and DSPM model were applied to calculate volumetric membrane charge values, dielectric constant,and pore radius, to analyze the relationship between the parameters and rejection of salt. In the low concentration range,the results showed that therejection of Na2SO4 and K2SO4 showed the same changing rule as the KC1 and NaCl,the membrane chargedensity( | Xa | ) increased when the concentration of salt solutions increased, the rejection decreased duo to charge screening. The rejection of MgCl2 increased with increasing of the concentration, the | Xa | of salt solution decreased first and then increased,duo to special combination of Mg2+ with carboxyl. The electrostatic repulsion and the dielectric exclusion influenced the rejection of MgCl2 together.
作者 姜迪 徐异峰 陆国太 杨刚 邢卫红
机构地区 南京工业大学材料化学工程国家重点实验室
出处 《膜科学与技术》 CAS CSCD 北大核心 2017年第1期64-68,共5页 Membrane Science and Technology
基金 国家支撑计划(2013BAE11B03)
关键词 纳滤膜 截留率 荷电密度 介电常数 模型 nanofiltration rejection membrane charge density dielectric constant model
分类号 TQ051.893 [化学工程]
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  • 1Diawara C K. NanJiltration process efficiency in water desahna- tion[ J]. Separation Purification Research ,2008,37:303 - 325. 被引量:1
  • 2Braeken L, van der Bruggen B, Vandecasteele C. Regeneration of brewery waste water using nanofiltration [ J ]. Water Research, 2004,38 : 3075 - 3082. 被引量:1
  • 3Rice G, Kentish S, Vivekanand V, et al. Membrane-based dairy separation : a comparison of nanofihration and electrodialysis [ J ]. Developmenl Chemical Engincering Mineral Progress, 2005,13 : 43 - 54. 被引量:1
  • 4Vellenga E,Tragardh G. Nanot~ltration of combined salt and sugar solutions: coupling between retentions [ J 1- Desalination, 1998, 120:211 - 220. 被引量:1
  • 5Eseoda A, Fieveta P, Lakarda S, et al. Influence of salts on the re- jection of polyethyleneglycol by an NF organic membranc: pore swelling and salting-out eftects [ J ]. Journal of Membrane Sci- ence ,2010,347:174 - 182. 被引量:1
  • 6Bowen W R, Mukhtar H. Characterization and prediction of sepa- ration performance of nanofiltration membranes [ J ]. Journal of Membrane Science, 1996,112:263 - 274. 被引量:1
  • 7Bowen W R, Mohammad A W, Hilal N. Characterization of nano- filtration membranes for predictive purposes: use of salts, un- charged solutes and atomic force microscopy[ J ]. Journal of Mem- brane Science, 1997,126:91 - 105. 被引量:1
  • 8Benftez F J,Acero J L, Lea/ A l, et al. The use of ultraafiltcation and nanofihration membranes tot the purification of cork process-ing wastewater [ J]. Journal of ftazardous Materials, 2009,162 : 1438 - 1445. 被引量:1
  • 9Bandini S,Vezzani D. Nanofiltration modeling:the role of diclec- tric exclusion in membrane characterization [ J ]. Chemical Engi- neering Science ,2003,58:3303 - 3326,. 被引量:1

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膜科学与技术
2017年 第1期

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