乙腈在高盐废水中的渗透汽化行为研究 |
作者:马腾飞1,王勇1,薛长菁1,张奕1,纪敏2,李月刚2 |
单位: 1.污染控制与资源化研究国家重点实验室,南京大学,南京,210023; 2.太仓中化环保化工有限公司,太仓,215433 |
关键词: 渗透汽化;乙腈;PDMS;复合膜;废水 |
DOI号: |
分类号: TQ028.8 |
出版年,卷(期):页码: 2018,38(5):88-93 |
摘要: |
某化工产品生产过程中要排放大量的含乙腈、高盐度的工业废水,处理难度大。本研究采用了PDMS渗透汽化膜,考察了从废水中回收乙腈的可行性,研究了温度、乙腈浓度、料液中含盐量等因素对分离性能的影响。结果表明:温度为40℃时,可以将起始浓度为36060 mg/L的乙腈浓缩到47%以上,过膜通量为353g/m2 h,分离因子大于20。研究表明使用渗透汽化膜能够从废水中回收乙腈,实现资源化,废水处理具有效率高、能耗低,无二次污染物的特点。 |
Acetonitrile wastewater is toxic and hazardous. Acetonitrile in high-salt wastewater is refractory and difficult for wastewater treatment. In this work, separation and recovery of acetonitrile from high-salt aqueous streams by pervaporation were investigated, the influences of operating conditions(e.g. acetonitrile feed concentration, temperature, feed flowrate, salt concentration) were evaluated. Results shows that an increase in concentration implies higher fluxes ,whereas a rise in temperature implies higher flux and reduction of the separation factor. The activation energy for the permeation of acetonitrile and water through the membrane indicated that the pervaporation of acetonitrile is more highly temperature dependent than water. The maximum permeate flux achieved was 353g/m2h,and the highest concentrations of acetonitrile in the permeate was found to be more than 47% . The pervaporation process offers a prospect for the treatment and recovery of hazardous acetonitrile wastewater because of the high acetonitrile concentration of the permeate and the possibility for its reuse. |
基金项目: |
作者简介: |
第一作者简介:马腾飞(1986-),男,山东潍坊人,硕士生,主要从事分离膜技术、化工废水处理研究 *为通讯联系人,E-mail: wangyong@nju.edu.cn |
参考文献: |
[1] Li C, Yue Z, Feng F, et al. A novel strategy for acetonitrile wastewater treatment by using a recombinant bacterium with biofilm-forming and nitrile-degrading capability[J]. Chemosphere, 2016, 161:224-232. [2] 吴丹, 闫光绪, 马学良. 高浓度有机氰废水的好氧可生化性研究[J]. 石油化工环境保护, 2003, 26(2):9-12. [3] Li T, Liu J, Bai R, et al. Membrane-Aerated Biofilm Reactor for the Treatment of Acetonitrile Wastewater[J]. Environ. Sci. Technol. 2008, 42(6):2099–2104. [4] 段婉君, 柴涛, 冯一伟,等. 铱钽涂层形稳阳极电解含乙腈的模拟废水[J]. 科学技术与工程,2016,16(27):311-314. [5] 信威鹏, 邹杰, 孙亮, 等.Fenton试剂处理含乙腈医药废水试验研究[J]. 辽宁化工, 2012,41(5):440~441. [6] Aliabadi M, Aroujalian A, Raisi A. Removal of Styrene from petrochemical wastewater using pervaporation process[J]. Desalination 2012,284:116~121. [7] Khayet M, Cojocaru C. Studies on pervaporation separation of acetone,acetonitrile and ethanol from aqueous solutions[J].Sep. Purif. Technol,2008, 63(2):303-310. [8] Heitmanna S,Kringsa J,Kreisa P. Recovery of n-butanol using ionic liquid-based pervaporation membranes[J]. Sep. Purif. Technol,2012,97:108-114. [9] Dong Z,Liu G,Liu S,et al. High performance ceramic hollow fiber supported PDMS composite pervaporation membrane for bio-butanol recovery[J]. J. Membr. Sci, 2014,450:38~47. [10] Gao L,Alberto M, Budd P.High-flux PIM-1/PVDF thin film composite membranes for 1-butanol/water pervaporation[J]. J. Membr. Sci,2017,529:207–214. [11] Chovau S,Dobrak A,Figoli A,et al.Pervaporation performance of unfilled and filled PDMS membranes and novel SBS membranes for the removal of toluene from diluted aqueous solutions[J].Chem. Eng. J, 2010,159(1-3): 37–46. [12] Shah M,Noble R, Clough D,Pervaporation–air stripping hybrid process for removal of VOCs from groundwater[J]. J. Membr. Sci, 2004,241(2) 257–263. [13] Zhang Y, Benes N, Lammertink R. Performance study of pervaporation in a microfluidic system for the removal of acetone from water[J]. Chem. Eng. J, 2016,284:1342–1347. [14] Santoro S,Galiano F,Figoli A. Strategy for scale-up of SBS pervaporation membranes for ethanol recovery from diluted aqueous solutions[J]. Sep. Purif. Technol,2017,176:252~261. [15] Ramaiaha K, Satyasrib D,Krishnaiaha A. Removal of hazardous chlorinated VOCs from aqueous solutions using novel ZSM-5 loaded PDMS/PVDF composite membrane consisting of three hydrophobic layers[J]. J. Hazard. Mater,2013,261:362~371. [16] Kujawa J,Cerneaux S,Kujawski W. Removal of hazardous volatile organic compounds from water by vacuum pervaporation with hydrophobic ceramic membranes[J]. J. Membr. Sci, 2015,474:11~19. [17] Yi S,Wan Y. Volatile organic compounds(VOCs) recovery from aqueous solutions Via vinyltriethoxysilane- -grafted-silicalite-1/polydimethylsiloxane mixed matrix membrane[J]. Chem. Eng. J, 2017,313:1639~1646. [18] Lipnizki F,Hausmanns S,Field R. Influence of impermeable components on the permeation of aqueous 1-propanol mixtures in hydrophobic pervaporation[J]. J. Membr. Sci, 2004,228(2): 129–138. |
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