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Volume 39 Issue 7
Jan.  2022
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Article Contents
YANG Zhe, DAI Ruo-bin, WEN Yue, WANG Li, WANG Zhi-wei, TANG Chu-yang. RECENT PROGRESS OF NANOFILTRATION MEMBRANE IN WATER TREATMENT AND WATER REUSE[J]. ENVIRONMENTAL ENGINEERING , 2021, 39(7): 1-12. doi: 10.13205/j.hjgc.202107001
Citation: YANG Zhe, DAI Ruo-bin, WEN Yue, WANG Li, WANG Zhi-wei, TANG Chu-yang. RECENT PROGRESS OF NANOFILTRATION MEMBRANE IN WATER TREATMENT AND WATER REUSE[J]. ENVIRONMENTAL ENGINEERING , 2021, 39(7): 1-12. doi: 10.13205/j.hjgc.202107001

RECENT PROGRESS OF NANOFILTRATION MEMBRANE IN WATER TREATMENT AND WATER REUSE

doi: 10.13205/j.hjgc.202107001
  • Received Date: 2021-01-15
    Available Online: 2022-01-18
  • In recent years, nanofiltration(NF) membranes have been extensively applied in water treatment and water reuse, such as drinking water treatment, seawater pretreatment, brackish water treatment and industrial water treatment, because of their relatively higher water permeance, selectivity and lower operation pressure. However, conventional commercial NF membranes have high rejection of minerals that are beneficial for human body at certain concentration and low rejection against harmful contaminants. In addition, the separation performance of conventional NF membrane is constrained by permeability-selectivity trade-off, known as the upper bound. This paper systematically summarizes the recent progress of nanofiltration based on its structural optimization and various modifications. Furthermore, it highlights the recent progress for modifying NF membranes focusing on optimizing porosity, hydrophilicity, surface functionalization, as well as manupulating membrane charge to improve membrane permselectivity, anti(bio)fouling and antichlorine properties. The future development trend of novel NF membranes in the context of water/waste water treatment and water reuse is also discussed.
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  • [1]
    ELIMELECH M,PHILLIP W A.The future of seawater desalination:energy,technology,and the environment[J].Science,2011,333(6043):712-717.
    [2]
    TANG C Y,YANG Z,GUO H,et al.Potable water reuse through advanced membrane technology[J].Environmental Science & Technology,2018,52(18):10215-10223.
    [3]
    DAI R,GUO H,TANG C Y,et al.Hydrophilic selective nanochannels created by metal organic frameworks in nanofiltration membranes enhance rejection of hydrophobic endocrine-disrupting compounds[J].Environmental Science & Technology,2019,53(23):13776-13783.
    [4]
    YANG Z,GUO H,TANG C Y.The upper bound of thin-film composite (TFC) polyamide membranes for desalination[J].Journal of Membrane Science,2019,590:117297.
    [5]
    曲久辉.生命之源[J].求是,2012(8):39-40.
    [6]
    DAI R B,HAN H Y,WANG T L,et al.Fouling is the beginning:upcycling biopolymer-fouled substrates for fabricating high-Permeance thin-film composite polyamide membranes[J].Green Chemistry,2021,23:1013-1025.
    [7]
    YANG Z,ZHOU Z W,GUO H,et al.Tannic acid/Fe nanoscaffold for interfacial polymerization:toward enhanced nanofiltration performance[J].Environmental Science & Technology,2018,52(16):9341-9349.
    [8]
    YANG Z,WU Y,GUO H,et al.A novel thin-film nano-templated composite membrane with in situ silver nanoparticles loading:separation performance enhancement and implications[J].Journal of Membrane Science,2017,544:351-358.
    [9]
    GUO H,DENG Y,TAO Z J,et al.Does hydrophilic polydopamine coating enhance membrane rejection of hydrophobic endocrine-disrupting compounds?[J].Environmental Science & Technology Letters,2016,3(9):332-338.
    [10]
    李昆,王健行,魏源送.纳滤在水处理与回用中的应用现状与展望[J].环境科学学报,2016,36(8):2714-2729.
    [11]
    YANG Z,GUO H,YAO Z K,et al.Hydrophilic silver nanoparticles induce selective nanochannels in thin film nanocomposite polyamide membranes[J].Environmental Science & Technology,2019,53(9):5301-5308.
    [12]
    STOLOV M,FREGER V.Degradation of polyamide membranes exposed to chlorine:an impedance spectroscopy study[J].Environmental Science & Technology,2019,53(5):2618-2625.
    [13]
    YANG Z,MA X H,TANG C Y.Recent development of novel membranes for desalination[J].Desalination,2018,434:37-59.
    [14]
    YANG Z,SUN P F,LI X,et al.A critical review on thin-film nanocomposite membranes with interlayered structure:mechanisms,recent developments,and environmental applications[J].Environmental Science & Technology,2020,54(24):15563-15583.
    [15]
    DAI R B,LI J Y,WANG Z W.Constructing interlayer to tailor structure and performance of thin-film composite polyamide membranes:a review[J].Advances in Colloid and Interface Science,2020,282:102204.
    [16]
    DAI R B,WANG X,TANG C Y,et al.Dually charged mof-based thin-film nanocomposite nanofiltration membrane for enhanced removal of charged pharmaceutically active compounds[J].Environmental Science & Technology,2020,54(12):7619-7628.
    [17]
    CADOTTE J,KING R,MAJERLE R,et al.Interfacial synthesis in the preparation of reverse osmosis membranes[J].Journal of Macromolecular Science-Chemistry,1981,15(5):727-755.
    [18]
    时雅滨,张学彬,田明,等.纳滤膜的制备及其应用现状[J].化工时刊,2018,32(10):35-38.
    [19]
    王祯宜.薄膜复合纳滤膜结构设计及脱盐性能研究[D].合肥:中国科学技术大学,2020.
    [20]
    田家宇,常海霖,高珊珊,等.基于界面聚合技术的复合纳滤膜研究进展[J].净水技术,2020,39(10):86-93

    ,180.
    [21]
    RAMON G Z,WONG M C,HOEK E M.Transport through composite membrane,part 1:is there an optimal support membrane?[J].Journal of Membrane Science,2012,415:298-305.
    [22]
    栾仁杰,马骁轩,刘爱菊,等.高效纳滤膜的制备研究进展[J].山东理工大学学报(自然科学版),2020,34(3):17-22.
    [23]
    李新冬,代武川,袁佳彬,等.纳滤膜分离技术处理饮用水研究进展[J].应用化工,2018,47(8):1767-1771.
    [24]
    刘四华.聚哌嗪酰胺纳滤膜微结构原位调控及氯化机理研究[D].天津:天津工业大学,2020.
    [25]
    ZAIDI S J,FADHILLAH F,KHAN Z,et al.Salt and water transport in reverse osmosis thin film composite seawater desalination membranes[J].Desalination,2015,368:202-213.
    [26]
    MOHAMMAD A W,TEOW Y H,ANG W L,et al.Nanofiltration membranes review:recent advances and future prospects[J].Desalination,2015,356:226-254.
    [27]
    DEEN W M.Hindered transport of large molecules in liquid-filled pores[J].AIChE Journal,1987,33(9):1409-1425.
    [28]
    TSURU T,NAKAO S I,KIMURA S.Calculation of ion rejection by extended Nernst-Planck equation with charged reverse osmosis membranes for single and mixed electrolyte solutions[J].Journal of Chemical Engineering of Japan,1991,24(4):511-517.
    [29]
    YAROSHCHUK A E.Rejection mechanisms of NF membranes[J].Membrane Technology,1998,1998(100):9-12.
    [30]
    BOWEN W R,WELFOOT J S.Modelling the performance of membrane nanofiltration-critical assessment and model development[J].Chemical Engineering Science,2002,57(7):1121-1137.
    [31]
    于水利.基于纳滤膜分离的健康饮用水处理工艺[J].给水排水,2019,45(4):12-14

    ,23.
    [32]
    张正磊,张俸志,周伟伟,等.纳滤工艺深度净化微污染水源水厂出水中试研究[J].中国给水排水,2019,35(15):37-42.
    [33]
    KHANZADA N K,FARID M U,KHARRAZ J A,et al.Removal of organic micropollutants using advanced membrane-based water and wastewater treatment:a review[J].Journal of Membrane Science,2020,598:117672.
    [34]
    LICONA K,GEAQUINTO L D O,NICOLINI J,et al.Assessing potential of nanofiltration and reverse osmosis for removal of toxic pharmaceuticals from water[J].Journal of Water Process Engineering,2018,25:195-204.
    [35]
    GUO H,DENG Y,YAO Z K,et al.A highly selective surface coating for enhanced membrane rejection of endocrine disrupting compounds:mechanistic insights and implications[J].Water Research,2017,121:197-203.
    [36]
    GUO H,PENG L E,YAO Z K,et al.Non-polyamide based nanofiltration membranes using green metal-organic coordination complexes:implications for the removal of trace organic contaminants[J].Environmental Science & Technology,2019,53(5):2688-2694.
    [37]
    LIU C,SHI L,WANG R.Crosslinked layer-by-layer polyelectrolyte nanofiltration hollow fiber membrane for low-pressure water softening with the presence of SO24- in feed water[J].Journal of Membrane Science,2015,486:169-176.
    [38]
    KOSUTIC K,DOLAR D,ASPERGER D,et al.Removal of antibiotics from a model wastewater by RO/NF membranes[J].Separation and Purification Technology,2007,53(3):244-249.
    [39]
    FUJIOKA T,NGHIEM L D,KHAN S J,et al.Effects of feed solution characteristics on the rejection of N-nitrosamines by reverse osmosis membranes[J].Journal of Membrane Science,2012,409/410:66-74.
    [40]
    YOON Y,WESTERHOFF P,SNYDER S A,et al.Removal of endocrine disrupting compounds and pharmaceuticals by nanofiltration and ultrafiltration membranes[J].Desalination,2007,202(1/2/3):16-23.
    [41]
    YANG L Y,ZHOU J,SHE Q H,et al.Role of calcium ions on the removal of haloacetic acids from swimming pool water by nanofiltration:mechanisms and implications[J].Water Research,2017,110:332-341.
    [42]
    COMERTON A M,ANDREWS R C,BAGLEY D M,et al.The rejection of endocrine disrupting and pharmaceutically active compounds by NF and RO membranes as a function of compound and water matrix properties[J].Journal of Membrane Science,2008,313(1/2):323-335.
    [43]
    HASSAN A M,AL-SOFI M A K,AL-AMODI A S,et al.A nanofiltration (NF) membrane pretratment of SWRO feed and MSF make-up[C]//IDA Conference,1997.
    [44]
    周栋,傅寅翼,朱丽静,等.纳滤预处理反渗透海水淡化研究进展[J].膜科学与技术,2015,35(3):106-112.
    [45]
    周栋,傅寅翼,薛立新,等.采用高效纳滤-低压反渗透集成膜工艺的海水淡化研究[J].膜科学与技术,2016,36(3):62-69.
    [46]
    QIN J J,KEKRE K A,TAO G,et al.New option of MBR-RO process for production of NEWater from domestic sewage[J].Journal of Membrane Science,2006,272(1/2):70-77.
    [47]
    CÔTÉ P,SIVERNS S,MONTI S.Comparison of membrane-based solutions for water reclamation and desalination[J].Desalination,2005,182(1/2/3):251-257.
    [48]
    薛涛,张朋川,张彩云,等.水资源全回收的MBR-NF新水源工艺中试研究[J].中国给水排水,2018,34(9):11-14.
    [49]
    俞开昌.MBR-NF双膜法高品质再生水制备技术与工程应用[D].北京:清华大学,2017.
    [50]
    张芸,王晓静,代文臣,等.组合膜分离技术资源化处理印染废水工艺的研究[J].水资源与水工程学报,2015,26(4):29-34.
    [51]
    刘威.混凝-纳滤组合工艺处理印染整理废水的研究[D].北京:中国科学院大学(中国科学院过程工程研究所),2018.
    [52]
    LI K,WANG J X,LIU J B,et al.Advanced treatment of municipal wastewater by nanofiltration:operational optimization and membrane fouling analysis[J].Journal of Environmental Sciences,2016,43:106-117.
    [53]
    CINPERI N C,OZTURK E,YIGIT N O,et al.Treatment of woolen textile wastewater using membrane bioreactor,nanofiltration and reverse osmosis for reuse in production processes[J].Journal of Cleaner Production,2019,223:837-848.
    [54]
    靳云辉,秦川,郝静,等.中温厌氧-MBR-NF/RO工艺处理垃圾渗滤液设计[J].给水排水,2018,44(9):46-48.
    [55]
    金正鑫,林振琳,黄功洛,等.垃圾渗滤液MBR+NF浓缩液资源化技术研究进展[J].能源与环境,2018(3):11-13.
    [56]
    艾恒雨,孟棒棒,李娜,等.我国垃圾渗滤液膜浓缩液处理现状与污染控制建议[J].环境工程技术学报,2016,6(6):553-558.
    [57]
    赵庆.两级A/O-MBR+NF/RO处理垃圾渗滤液[J].能源研究与管理,2020(2):32-34,41.
    [58]
    BOO C,WANG Y,ZUCKER I,et al.High performance nanofiltration membrane for effective removal of perfluoroalkyl substances at high water recovery[J].Environmental Science & Technology,2018,52(13):7279-7288.
    [59]
    BI F,ZHAO H,ZHANG L,et al.Discussion on calculation of maximum water recovery in nanofiltration system[J].Desalination,2014,332(1):142-146.
    [60]
    谢锦灯,李晨冉.垃圾渗滤液MBR+NF浓缩液全量处理技术应用研究[J].能源与环境,2020(4):74-76.
    [61]
    杨姝君,张辰,贺骏,等.垃圾渗滤液"纳滤+纳滤浓缩液3级减量"技术的工程应用[J].环境工程,2020,38(6):81-87.
    [62]
    CHEN Z W,LUO J Q,CHEN X R,et al.Fully recycling dairy wastewater by an integrated isoelectric precipitation-nanofiltration-anaerobic fermentation process[J].Chemical Engineering Journal,2016,283:476-485.
    [63]
    ANDRADE L,MENDES F,ESPINDOLA J,et al.Nanofiltration as tertiary treatment for the reuse of dairy wastewater treated by membrane bioreactor[J].Separation and Purification Technology,2014,126:21-29.
    [64]
    FERNÁNDEZ P,RIERA F A,ÁLVAREZ R,et al.Nanofiltration regeneration of contaminated single-phase detergents used in the dairy industry[J].Journal of Food Engineering,2010,97(3):319-328.
    [65]
    GALANAKIS C M,TORNBERG E,GEKAS V.Clarification of high-added value products from olive mill wastewater[J].Journal of Food Engineering,2010,99(2):190-197.
    [66]
    王健行,郑靖凡,魏源送,等.纳滤膜深度处理抗生素制药废水的运行条件优化[J].中国给水排水,2018,34(19):85-89.
    [67]
    WANG J X,LI K,YU D W,et al.Comparison of NF membrane fouling and cleaning by two pretreatment strategies for the advanced treatment of antibiotic production wastewater[J].Water Science and Technology,2016,73(9):2260-2267.
    [68]
    WANG J X,LI K,WEI Y S,et al.Performance and fate of organics in a pilot MBR-NF for treating antibiotic production wastewater with recycling NF concentrate[J].Chemosphere,2015,121:92-100.
    [69]
    WANG J,LI K,YU D W,et al.Fouling characteristics and cleaning strategies of NF membranes for the advanced treatment of antibiotic production wastewater[J].Environmental Science and Pollution Research,2017,24(10):8967-8977.
    [70]
    LIU C H,LEE J,MA J,et al.Antifouling thin-film composite membranes by controlled architecture of zwitterionic polymer brush layer[J].Environmental Science & Technology,2017,51(4):2161-2169.
    [71]
    JEONG B H,HOEK E M,YAN Y,et al.Interfacial polymerization of thin film nanocomposites:a new concept for reverse osmosis membranes[J].Journal of Membrane Science,2007,294(1):1-7.
    [72]
    ZHOU Z Y,HU Y X,BOO C,et al.High-performance thin-film composite membrane with an ultrathin spray-coated carbon nanotube interlayer[J].Environmental Science & Technology Letters,2018,5(5):243-248.
    [73]
    KARAN S,JIANG Z,LIVINGSTON A G.Sub-10 nm polyamide nanofilms with ultrafast solvent transport for molecular separation[J].Science,2015,348(6241):1347-1351.
    [74]
    JIANG Z,KARAN S,LIVINGSTON A G.Water transport through ultrathin polyamide nanofilms used for reverse osmosis[J].Advanced Materials,2018,30(15):1705973.
    [75]
    PARK S J,CHOI W,NAM S E,et al.Fabrication of polyamide thin film composite reverse osmosis membranes via support-free interfacial polymerization[J].Journal of Membrane Science,2017,526:52-59.
    [76]
    LI Y F,YOU X D,LI Y,et al.Graphene quantum dot engineered ultrathin loose polyamide nanofilms for high-performance nanofiltration[J].Journal of Materials Chemistry A,2020,45(8):23930-23938.
    [77]
    ZHU J Y,HOU J W,ZHANG R J,et al.Rapid water transport through controllable,ultrathin polyamide nanofilms for high-performance nanofiltration[J].Journal of Materials Chemistry A,2018,6(32):15701-15709.
    [78]
    PENG L E,YAO Z K,YANG Z,et al.Dissecting the role of substrate on the morphology and separation properties of thin film composite polyamide membranes:seeing is believing[J].Environmental Science & Technology,2020,54(11):6978-6986.
    [79]
    TRIVEDI J S,BHALANI D V,BHADU G R,et al.Multifunctional amines enable the formation of polyamide nanofilm composite ultrafiltration and nanofiltration membranes with modulated charge and performance[J].Journal of Materials Chemistry A,2018,6(41):20242-20253.
    [80]
    PARK S J,AHN W G,CHOI W,et al.A facile and scalable fabrication method for thin film composite reverse osmosis membranes:dual-layer slot coating[J].Journal of Materials Chemistry A,2017,5(14):6648-6655.
    [81]
    LEE J H,CHUNG J Y,CHAN E P,et al.Correlating chlorine-induced changes in mechanical properties to performance in polyamide-based thin film composite membranes[J].Journal of Membrane Science,2013,433:72-79.
    [82]
    WEI J,LIU X,QIU C Q,et al.Influence of monomer concentrations on the performance of polyamide-based thin film composite forward osmosis membranes[J].Journal of Membrane Science,2011,381(1/2):110-117.
    [83]
    CUI Y,LIU X Y,CHUNG T S.Ultrathin polyamide membranes fabricated from free-standing interfacial polymerization:synthesis,modifications,and post-treatment[J].Industrial & Engineering Chemistry Research,2017,56(2):513-523.
    [84]
    YANG Z,WANG F,GUO H,et al.Mechanistic insights into the role of polydopamine interlayer towards improved separation performance of polyamide nanofiltration membranes[J].Environmental Science & Technology,2020,54(18):11611-11621.
    [85]
    WEN Y,ZHANG X,LI X,et al.Metal-organic framework nanosheets for thin-film composite membranes with enhanced permeability and selectivity[J].ACS Applied Nano Materials,2020,3(9):9238-9248.
    [86]
    MA X H,YAO Z,YANG Z,et al.Nanofoaming of polyamide desalination membranes to tune permeability and selectivity[J].Environmental Science & Technology Letters,2018,5(2):123-130.
    [87]
    LU X,ARIAS Chavez L H,ROMERO-VARGAS Castrillón S,et al.Influence of active layer and support layer surface structures on organic fouling propensity of thin-film composite forward osmosis membranes[J].Environmental Science & Technology,2015,49(3):1436-1444.
    [88]
    GLATER J,ZACHARIAH M R.A mechanistic study of halogen interaction with polyamide reverse-osmosis membranes[M].Reverse Osmosis and Ultrafiltration.American Chemical Society,1985:345-358.
    [89]
    YAO Y,ZHANG P,JIANG C,et al.High performance polyester reverse osmosis desalination membrane with chlorine resistance[J].Nature Sustainability,2021,4:138-146.
    [90]
    ZHENG J F,LIU Y L,ZHU J Y,et al.Sugar-based membranes for nanofiltration[J].Journal of Membrane Science,2021,619:118786.
    [91]
    CHENG J,ZHANG Z Q,SHI W X,et al.A novel polyester composite nanofiltration membrane prepared by interfacial polymerization catalysed by 4-dimethylaminopyridine:enhanced the water permeability and anti-fouling ability[J].Polymer,2018,153:24-32.
    [92]
    JIN P R,ZHU J Y,YUAN S S,et al.Erythritol-based polyester loose nanofiltration membrane with fast water transport for efficient dye/salt separation[J].Chemical Engineering Journal,2020,406:126796.
    [93]
    XUE J,JIAO Z W,BI R,et al.Chlorine-resistant polyester thin film composite nanofiltration membranes prepared with Β-cyclodextrin[J].Journal of Membrane Science,2019,584:282-289.
    [94]
    GUI L,DONG J,FANG W,et al.Ultrafast ion sieving from honeycomb-like polyamide membranes formed using porous protein assemblies[J].Nano Letters,2020,20(8):5821-5829.
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