反渗透膜生物污堵监测及其控制的研究进展

孙浩; 于童; 殷豪帅; 赵飞; 施雪卿; 毕学军

doi:10.13205/j.hjgc.202107007

反渗透膜生物污堵监测及其控制的研究进展

doi: 10.13205/j.hjgc.202107007

青岛理工大学环境与市政工程学院, 山东青岛 266033

基金项目:

中国博士后科学基金面上资助项目（2019M652347）；青岛市博士后研究人员应用研究项目

详细信息

作者简介:
孙浩(1996-),男,硕士研究生,主要研究方向为污水再生利用和反渗透膜生物污染控制。1270335780@qq.com

通讯作者:
于童(1987-),男,博士,副教授,主要研究方向为污水处理与再生利用。yutonghj@qut.edu.cn

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出版历程
- 收稿日期: 2020-07-06
- 网络出版日期: 2022-01-18

RESEARCH PROGRESS ON BIOFOULING OF REVERSE OSMOSIS AND ITS MONITORING AND CONTROL

School of Environmental and Municipal Engineering, Qingdao University of Technology, Qingdao 266033, China

摘要

摘要: 综述了RO膜面微生物群落结构及EPS的最新研究进展，并对RO膜生物污堵的监测技术和控制方法进行总结。膜面微生物中变形菌门（α-，β-和γ-变形菌纲）、拟杆菌门和浮霉菌门相对丰度较高，产生EPS较多的鞘氨醇单胞菌属、假单胞菌属在膜污堵中起到重要作用。EPS中多糖更易附着于膜面，EPS中大分子组分的RO膜污堵潜势更高，透明胞外聚合物（TEP）能促进生物污堵的形成。对进水中有机物参数和微生物参数的测定能反映进水RO膜污堵潜势，但并不能用于确定膜面污堵的实际情况。而对RO膜组件的动态监测能够及时反映膜污堵状态。进水预处理和膜清洗已被用于延缓RO膜生物污堵，而膜改性和生物处理等方法的开发为RO膜生物污堵的控制提供了新途径。根据研究现状，认为今后反渗透膜抗生物污堵的研究需要完善进水生物污堵潜势评价指标，加大对膜面污堵中优势菌群和污堵潜势大的EPS的控制研究，并对新型抗污染改性膜的工程实用性进行关注。
- 反渗透膜 /
- 生物污堵 /
- 生物膜 /
- 监测技术 /
- 预防和控制
Abstract: The relevant studies on microbial community structure and EPS on RO membrane surface were reviewed. Meantime, the research of monitoring techniques and control methods of biofouling of RO membrane were summarized. In general, the relative abundances of Proteobacteria(α-,β-,γ-Proteobacteria), Bacteroidetes and Planctomycetes are higher than other phyla on RO membrane. The genera of Sphingomonas and Pseudomonas which produce more EPS play key roles in biofouling of RO membrane. Polysaccharides are more likely to adhere to the RO membrane. Macromolecular components of EPS have a higher fouling potential. TEP can accelerate the biofouling. The determination of organic and microbial parameters in the influent can reflect fouling potential of influent. The monitoring of membrane modules can reflect biofouling condition in time. Pretreatment and membrane cleaning have been used to alleviate biofouling, while surface modification and biological treatment provide new ways for biofouling control. Based on the research status, the future research perspectives regarding biofouling control are proposed, including enhancing the evaluation indexes system of biofouling potential, and the control of the dominant microbial species and EPS components, paying more attention to the engineering feasibility of anti-fouling membranes.
- reverse osmosis membrane /
- biofouling /
- biofilm /
- monitoring techniques /
- prevention and control

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参考文献(111)

[1]	KOMLENIC R.Rethinking the causes of membrane biofouling[J].Filtration and Separation,2010,47(5):26-28.
[2]	AL-AHMAD M,ABDUL ALEEM F A,MUTIRI A,et al.Biofuoling in RO membrane systems Part 1:fundamentals and control[J].Desalination,2000,132(1/2/3):173-179.
[3]	KHAN M T,CARMEM-LARA D O M,AUBRY C,et al.Kinetic study of seawater reverse osmosis membrane fouling[J].Environmental Science & Technology,2013,47(19):10884-10894.
[4]	BUCS S,FARHAT N,KRUITHOF J,et al.Review on strategies for biofouling mitigation in spiral wound membrane systems[J].Desalination,2018,434:189-197.
[5]	LIN W C,SHAO R P,WANG X M,et al.Impacts of non-uniform filament feed spacers characteristics on the hydraulic and anti-fouling performances in the spacer-filled membrane channels:experiment and numerical simulation[J].Water Research,2020,185:116251.
[6]	刘兆峰,何灿,刘淑琴,等.聚酰胺反渗透膜复合膜改性研究进展[J].化工新型材料,2020,48(10):54-57 ,63.
[7]	GARCIA-JIMENEZ P,CARRASCO-ACOSTA M,PAYA C E,et al.Composition and molecular identification of bacterial community in seawater desalination plants[J].Advances in Microbiology,2019,9:863-876.
[8]	ANIS S F,HASHAIKEH R,HILAL N.Reverse osmosis pretreatment technologies and future trends:a comprehensive review[J].Desalination,2019,452:159-195.
[9]	KHAN M T,HONG P Y,NADA N,et al.Does chlorination of seawater reverse osmosis membranes control biofouling?[J].Water Research,2015,78:84-97.
[10]	BELGINI D R B,SIQUEIRA V M,OLIVEIRA D M,et al.Integrated diversity analysis of the microbial community in a reverse osmosis system from a Brazilian oil refinery[J].Systematic and Applied Microbiology,2018,41(5):473-486.
[11]	AYACHE C,MANES C,PIDOU M,et al.Microbial community analysis of fouled reverse osmosis membranes used in water recycling[J].Water Research,2013,47(10):3291-3299.
[12]	BERESCHENKO L A,HEILIG G H J,NEDERLOF M M,et al.Molecular characterization of the bacterial communities in the different compartments of a full-scale reverse-osmosis water purification plant[J].Applied and Environmental Microbiology,2008,74(17):5297-5304.
[13]	BERESCHENKO L A,STAMS A J M,EUVERINK G J W,et al.Biofilm formation on reverse osmosis membranes is initiated and dominated by Sphingomonas spp.[J].Applied and Environmental Microbiology,2010,76(8):2623-2632.
[14]	GUTMAN J,HERZBERG M,WALKER S L.Biofouling of reverse osmosis membranes:positively contributing factors of Sphingomonas[J].Environmental Science & Technology 2014,48:13941-13950.
[15]	NAGARAJ V,SKILLMAN L,HO G,et al.Characterisation and comparison of bacterial communities on reverse osmosis membranes of a full-scale desalination plant by bacterial 16S rRNA gene metabarcoding[J].NPJ Biofilms and Microbiomes,2017,3(1):47-58.
[16]	AL ASHHAB A,GILLOR O,HERZBERG M.Biofouling of reverse-osmosis membranes under different shear rates during tertiary wastewater desalination:microbial community composition[J].Water Research,2014,67:86-95.
[17]	HERZBERG M,ELIMELECH M.Biofouling of reverse osmosis membranes:role of biofilm-enhanced osmotic pressure[J].Journal of Membrane Science,2007,295(1/2):11-20.
[18]	TSENG B S,ZHANG W,HARRISON J J,et al.The extracellular matrix protects Pseudomonas aeruginosa biofilms by limiting the penetration of tobramycin[J].Environmental Microbiology,2013,15(10):2865-2878.
[19]	YU T,MENG L,ZHAO Q B,et al.Effects of chemical cleaning on RO membrane inorganic,organic and microbial foulant removal in a full-scale plant for municipal wastewater reclamation[J].Water Research,2017,113:1-10.
[20]	REHMAN Z U,ALI M,IFTIKHAR H,et al.Genome-resolved metagenomic analysis reveals roles of microbial community members in full-scale seawater reverse osmosis plant[J].Water Research,2019,149:263-271.
[21]	AL ASHHAB A,HERZBERG M,GILLOR O.Biofouling of reverse-osmosis membranes during tertiary wastewater desalination:microbial community composition[J].Water Research,2014,50:341-349.
[22]	FLEMMING H C.Biofouling in water systems-Cases,causes and countermeasures[J].Applied Microbiology and Biotechnology,2002,59(6):629-640.
[23]	LI Q,XU Z,PINNAU I.Fouling of reverse osmosis membranes by biopolymers in wastewater secondary effluent:role of membrane surface properties and initial permeate flux[J].Journal of Membrane Science,2007,290(1/2):173-181.
[24]	ANG W S,ELIMELECH M.Protein (BSA) fouling of reverse osmosis membranes:implications for wastewater reclamation[J].Journal of Membrane Science,2007,296(1/2):83-92.
[25]	DESMOND P,BEST J P,MORGENROTH E,et al.Linking composition of extracellular polymeric substances (EPS) to the physical structure and hydraulic resistance of membrane biofilms[J].Water Research,2018,132:211-221.
[26]	VILLACORTE L O,KENNEDY M D,AMY G L,et al.The fate of transparent exopolymer particles (TEP) in integrated membrane systems:removal through pre-treatment processes and deposition on reverse osmosis membranes[J].Water Research,2009,43(20):5039-5052.
[27]	ZHANG Z H,CHEN M M,LI J J,et al.Significance of transparent exopolymer particles derived from aquatic algae in membrane fouling[J].Arabian Journal of Chemistry,2020,13(3):4577-4585.
[28]	VILLACORTE L O,SCHURER R,KENNEDY D,et al.Removal and deposition of transparent exopolymer particles in a seawater UF-RO system[J].IDA Journal of Desalination & Water Reuse,2010,2(1):45-55.
[29]	LI S,WINTERS H,JEONG S,et al.Marine bacterial transparent exopolymer particles (TEP) and TEP precursors:characterization and RO fouling potential[J].Desalination,2016,379:68-74.
[30]	YU T,SUN H,CHEN Z,et al.Different bacterial species and their extracellular polymeric substances (EPSs) significantly affected reverse osmosis (RO) membrane fouling potentials in wastewater reclamation[J].Science of the Total Environment,2018,644:486-493.
[31]	YIN W Q,SHIN J,CORNELISSEN E R,et al.Impact of isolated dissolved organic fractions from seawater on biofouling in reverse osmosis (RO) desalination process[J].Water Research,2020,168:115198.
[32]	LUO H J,CUI Y,ZHANG H Y,et al.Analyzing and verifying the association of spiral-wound reverse osmosis membrane fouling with different secondary effluents:full-scale experiments[J].Science of the Total Environment,2020,711:135150.
[33]	TONG X,CUI Y,WANG Y H,et al.Fouling properties of reverse osmosis membranes along the feed channel in an industrial-scale system for wastewater reclamation[J].Science of the Total Environment,2020,713:136673.
[34]	LEVI A,BAR-ZEEV E,ELIFANTZ H,et al.Characterization of microbial communities in water and biofilms along a large scale SWRO desalination facility:site-specific prerequisite for biofouling treatments[J].Desalination,2016,378:44-52.
[35]	PARK J W,LEE Y J,MEYER A S,et al.Bacterial growth through microfiltration membranes and NOM characteristics in an MF-RO integrated membrane system:lab-scale and full-scale studies[J].Water Research,2018,144:36-45.
[36]	INABA T,HORI T,AIZAWA H,et al.Microbiomes and chemical components of feed water and membrane-attached biofilm in reverse osmosis system to treat membrane bioreactor effluents[J].Scientific Reports,2018,8(24):271-277.
[37]	CHIELLINI C,IANNELLI R,MODEO L,et al.Biofouling of reverse osmosis membranes used in river water purification for drinking purposes:analysis of microbial populations[J].Biofouling,2012,28(9):969-984.
[38]	NAGARAJ V,SKILLMAN L,LI D,et al.Culturable bacteria from a full-scale desalination plant:identification methods,bacterial diversity and selection of models based on membrane-biofilm community[J].Desalination,2019,457:103-114.
[39]	BERESCHENKO L A,STAMS A J M,HEILIG G H J,et al.Investigation of microbial communities on reverse osmosis membranes used for process water production[J].Water Science and Technology,2007,55(8/9):181-190.
[40]	JEONG S,CHO K,JEONG D,et al.Effect of engineered environment on microbial community structure in biofilter and biofilm on reverse osmosis membrane[J].Water Research,2017,124:227-237.
[41]	VROUWENVELDER J S,MANOLARAKIS S A,VAN DER HOEK J P,et al.Quantitative biofouling diagnosis in full scale nanofiltration and reverse osmosis installations[J].Water Research,2008,42(19):4856-4868.
[42]	于海琴,杨成永,赵宗升,等.市政污水深度回用系统中反渗透膜表面微生物污染特性研究进展[J].北京工业大学学报,2013,39(7):1092-1099.
[43]	WEINRICH L,LECHEVALLIER M,HAAS C N.Contribution of assimilable organic carbon to biological fouling in seawater reverse osmosis membrane treatment[J].Water Research,2016,101:203-213.
[44]	BUI X T,CHIEMCHAISRI C,FUJIOKA T,et al.Water and Wastewater Treatment Technologies[M].Singapore:Springer,2019:379-402.
[45]	巫寅虎,王琦,童心,等.污水再生处理反渗透系统进水膜污堵潜势评价方法及指标体系[J].环境工程,2020,38(3):51-57.
[46]	VAN DER KOOIJ D,VEENENDAAL H R,BAARS-LORIST C,et al.Biofilm formation on surfaces of glass and Teflon exposed to treated water[J].Water Research,1995,29(7):1655-1662.
[47]	SIM L N,CHONG T H,TAHERI A H,et al.A review of fouling indices and monitoring techniques for reverse osmosis[J].Desalination,2018,434:169-188.
[48]	曹连城.反渗透水处理系统微生物污染特性分析及对策[J].武汉科技大学学报,2002,25(3):252-254.
[49]	汤芳.污水再生处理反渗透工艺膜污染组分识别与控制[D].北京:清华大学,2016.
[50]	VROUWENVELDER J S,VAN DER KOOIJ D.Diagnosis,prediction and prevention of biofouling of NF and RO membranes[J].Desalination,2001,139:65-71.
[51]	VROUWENVELDER J S,BAKKER S M,WESSELS L P,et al.The membrane fouling simulator as a new tool for biofouling control of spiral-wound membranes[J].Desalination,2007,204(1/2/3):170-174.
[52]	FARHAT N M,VROUWENVELDER J S,van LOOSDRECHT M C M,et al.Effect of water temperature on biofouling development in reverse osmosis membrane systems[J].Water Research,2016,103:149-159.
[53]	PARK S,NAM T,PARK J,et al.Investigating the influence of organic matter composition on biofilm volumes in reverse osmosis using optical coherence tomography[J].Desalination,2017,419:125-132.
[54]	SIM S T V,KRANTZ W B,CHONG T H,et al.Online monitor for the reverse osmosis spiral wound module-Development of the canary cell[J].Desalination,2015,368:48-59.
[55]	SIM S T V,SUWARNO S R,CHONG T H,et al.Monitoring membrane biofouling via ultrasonic time-domain reflectometry enhanced by silica dosing[J].Journal of Membrane Science,2013,428:24-37.
[56]	安耿宏,林捷斌,王虹,等.超声波在线监测卷式反渗透膜污染及清洗[J].膜科学与技术,2012,32(1):86-91.
[57]	CHAI G Y,CAO B,ZHAO G Y,et al.Effects of concentration polarization,temperature and pressure on ultrasound detection of inorganic fouling and cleaning in a spiral-wound membrane module[J].Desalination and Water Treatment,2012,50(1/2/3):411-422.
[58]	FRIDJONSSON E O,VOGT S J,VROUWENVELDER J S,et al.Early non-destructive biofouling detection in spiral wound RO membranes using a mobile earth's field NMR[J].Journal of Membrane Science,2015,489:227-236.
[59]	UJIHARA R,FRIDJONSSON E O,BRISTOW N W,et al.Earth's field MRI for the non-invasive detection of fouling in spiral-wound membrane modules in pressure vessels during operation[J].Desalination and Water Treatment,2018,135:16-24.
[60]	VROUWENVELDER J S,van LOOSDRECHT M C M,KRUITHOF J C.Early warning of biofouling in spiral wound nanofiltration and reverse osmosis membranes[J].Desalination,2011,265(1/2/3):206-212.
[61]	RUDOLPH G,VIRTANEN T,FERRANDO M,et al.A review of in situ real-time monitoring techniques for membrane fouling in the biotechnology,biorefinery and food sectors[J].Journal of Membrane Science,2019,588:117221.
[62]	董秉直,李卫英,陈艳,等.用有机物分子量分布变化评价不同处理方法去除有机物的效果[J].水处理技术,2003,29(3):155-158.
[63]	KIM D,JUNG S,SOHN J,et al.Biocide application for controlling biofouling of SWRO membranes:an overview[J].Desalination,2009,238:43-52.
[64]	于童.污水再生处理反渗透膜面细菌生物污堵潜势研究[D].北京:清华大学,2018.
[65]	KWON Y N,LECKIE J O.Hypochlorite degradation of crosslinked polyamide membranes.Ⅱ.Changes in hydrogen bonding behavior and performance[J].Journal of Membrane Science,2006,282(1/2):456-464.
[66]	REDONDO J A,LOMAX I.Y2K generation FILMTEC* RO membranes combined with new pretreatment techniques to treat raw water with high fouling potential:summary of experience[J].Desalination,2001,136:287-306.
[67]	SORLINI S,COLLIVIGNARELLI C.Trihalomethane formation during chemical oxidation with chlorine,chlorine dioxide and ozone of ten Italian natural waters[J].Desalination,2005,176(1/3 SPEC.ISS.):103-111.
[68]	HASSAN A M,AL-JARRAH S,AL-LOHIBI T,et al.Performance evaluation of SWCC SWRO plants[J].Desalination,1989,74:37-50.
[69]	WANG Y H,WU Y H,TONG X,et al.Chlorine disinfection significantly aggravated the biofouling of reverse osmosis membrane used for municipal wastewater reclamation[J].Water Research,2019,154:246-257.
[70]	OH J H,JANG A.Application of chlorine dioxide (ClO₂) to reverse osmosis (RO) membrane for seawater desalination[J].Journal of the Taiwan Institute of Chemical Engineers,2016,68:281-288.
[71]	ERIKSSON P K,DIMOTSIS G L.Field experience:can chlorine dioxide Be used as a biocide in RO plants?[J].Journal of Desalination & Water Reuse,2013,4(1):14-20.
[72]	ZHAO X,HU H Y,YU T,et al.Effect of different molecular weight organic components on the increase of microbial growth potential of secondary effluent by ozonation[J].Journal of Environmental Sciences (China),2014,26(11):2190-2197.
[73]	SZCZUKA A,BERGLUND-BROWN J P,CHEN H K,et al.Evaluation of a pilot anaerobic secondary effluent for potable reuse:impact of different disinfection schemes on organic fouling of RO membranes and DBP formation[J].Environmental Science and Technology,2019,53(6):3166-3176.
[74]	HARIF T,ELIFANTZ H,MARGALIT E,et al.The effect of UV pre-treatment on biofouling of BWRO membranes:a field study[J].Desalination and Water Treatment,2011,31(1/2/3):151-163.
[75]	MARCONNET C,HOUARI A,SEYER D,et al.Membrane biofouling control by UV irradiation[J].Desalination,2011,276(1/3):75-81.
[76]	刘博,王运宏,巫寅虎,等.紫外线消毒对再生水中微生物生长分泌特性的影响[J].环境工程,2020,38(2):28-34.
[77]	HYDRANAUTICS.Biocides for Disinfection and Storage of Hydranautics Membrane Elements[EB/OL].Technical Service Bulletin,Hydranautics:Oceanside,CA,USA,2015.
[78]	罗立炜,罗辉甲,崔勇,等.甲基异噻唑琳酮对MBR出水微生物生长分泌特性及群落结构的影响[J].环境科学学报,2020,39(8):2467-2474.
[79]	BERTHEAS U,MAJAMAA K,ARZU A,et al.Use of DBNPA to control biofouling in RO systems[J].Desalination and Water Treatment,2009,3(1/2/3):175-178.
[80]	谭玉珺.印染废水生物处理出水反渗透脱盐系统优化运行研究[D].北京:清华大学,2017.
[81]	KUCERA J.Biofouling of Polyamide membranes:fouling mechanisms,current mitigation and cleaning strategies,and future prospects[J].Membranes,2019;9(9):111.
[82]	VROUWENVELDER J S,KRUITHOF J C,VAN LOOSDRECHT M.Integrated approach for biofouling control[J].Water Science & Technology,2010,62(11):2477.
[83]	PEREIRA O M,KUEHN M,WUERTZ S,et al.Effect of flow regime on the architecture of a psecdomonas fluorescens biofilm[J].Biotechnology & Bioengineering,2002,78(2):164-171.
[84]	董宏伟,姜天舒,杨安.流体剪切力对于生物膜形成的重要作用[J].科技创新导报,2010(13):94.
[85]	VROUWENVELDER J S,HINRICHS C,VAN DER MEER W G J,et al.Pressure drop increase by biofilm accumulation in spiral wound RO and NF membrane systems:role of substrate concentration,flow velocity,substrate load and flow direction[J].Biofouling:The Journal of Bioadhesion and Biofilm Research,2009,25(6):543-555.
[86]	HYDRANAUTICS.General Storage Procedures for Composite Polyamide and Polyvinyl Derivative (PVD) RO Membrane Elements[EB/OL].Technical Service Bulletin,Hydranautics:Oceanside,CA,USA,2015.
[87]	BERESCHENKO L A,PRUMMEL H,EUVERINK G J W,et al.Effect of conventional chemical treatment on the microbial population in a biofouling layer of reverse osmosis systems[J].Water Research,2011,45(2):405-416.
[88]	AL ASHHAB A,SWEITY A,BAYRAMOGLU B,et al.Biofouling of reverse osmosis membranes:effects of cleaning on biofilm microbial communities,membrane performance,and adherence of extracellular polymeric substances[J].Biofouling,2017,33(5):397-409.
[89]	曹路,黄慧群,张诚义,等.反渗透膜的污染及其化学清洗[J].清洗世界,2006,22(8):9-13.
[90]	HYDRANAUTICS.Foulants and Cleaning Procedures for composite polyamide RO/NF Membrane Elements[EB/OL].Technical Service Bulletin,Hydranautics:Oceanside,CA,USA,2015.
[91]	QIN J J,OO M H,KEKRE K A,et al.Optimization of direct-osmosis-high-salinity cleaning for reverse osmosis fouling control in water reuse[J].Water Science and Technology:Water Supply,2010,10(5):800-805.
[92]	LEE S,ELIMELECH M.Salt cleaning of organic-fouled reverse osmosis membranes[J].Water Research,2007,41(5):1134-1142.
[93]	FILLOUX E,WANG J S,PIDOU M,et al.Biofouling and scaling control of reverse osmosis membrane using one-step cleaning-potential of acidified nitrite solution as an agent[J].Journal of Membrane Science,2015,495:276-283.
[94]	VERBEKE R,GÓMEZ V,Vankelecom I F J.Chlorine-resistance of reverse osmosis (RO) polyamide membranes[J].Progress in Polymer Science,2017,72:1-15.
[95]	YU S C,YAO G H,DONG B Y,et al.Improving fouling resistance of thin-film composite polyamide reverse osmosis membrane by coating natural hydrophilic polymer sericin[J].Separation and Purification Technology,2013,118:285-293.
[96]	沈红梅.氯硅烷原位聚合的纳米复合聚酰胺反渗透膜的研究[D].杭州:浙江工业大学,2019.
[97]	CHOI H,PARK J,TAK T,et al.Surface modification of seawater reverse osmosis (SWRO) membrane using methyl methacrylate-hydroxy poly(oxyethylene) methacrylate (MMA-HPOEM) comb-polymer and its performance[J].Desalination,2012,291:1-7.
[98]	BEN-SASSON M,LU X L,BAR-ZEEV E,et al.In situ formation of silver nanoparticles on thin-film composite reverse osmosis membranes for biofouling mitigation[J].Water Research,2014,62:260-270.
[99]	王子悦.双功能抗生物污染反渗透膜表面改性及性能研究[D].哈尔滨:哈尔滨工业大学,2019.
[100]	KHANZADA N K,REHMAN S,LEU S Y,et al.Evaluation of anti-bacterial adhesion performance of polydopamine cross-linked graphene oxide RO membrane via in situ optical coherence tomography[J].Desalination,2020,479:114339.
[101]	蔡志奇,梁松苗.抗氧化复合反渗透膜的制备及其在强氧化环境下的结构与性能研究[J].水处理技术,2015,41(1):20-24.
[102]	WANG J,ZHANG S,WU P F,et al.In situ surface modification of thin-film composite polyamide membrane with zwitterions for enhanced chlorine resistance and transport properties[J].ACS Applied Materials and Interfaces,2019,11(12):12043-12052.
[103]	陈贤鸿,傅倍嘉,钟明强,等.氧化石墨烯掺杂反渗透混合基质膜制备及性能[J].化工学报,2018,69(1):429-434.
[104]	XIONG Y H,LIU Y.Biological control of microbial attachment:a promising alternative for mitigating membrane biofouling[J].Applied Microbiology and Biotechnology,2010,86(3):825-837.
[105]	LOISELLE M,ANDERSON K W.The use of cellulase in inhibiting biofilm formation from organisms commonly found on medical implants[J].Biofouling,2003,19(2):77-85.
[106]	TE POELE S,VAN DER GRAAF J.Enzymatic cleaning in ultrafiltration of wastewater treatment plant effluent[J].Desalination,2005,179(1/3 SPEC.ISS.):73-81.
[107]	WILLIAMS P,WINZER K,CHAN W C,et al.Look who's talking:communication and quorum sensing in the bacterial world[J].Philosophical Transactions of the Royal Society B-Biological Sciences,2007,362(1483):1119-1134.
[108]	OH H S,TAN C H,LOW J H,et al.Quorum quenching bacteria can be used to inhibit the biofouling of reverse osmosis membranes[J].Water Research,2017,112:29-37.
[109]	KIM H S,LEE J Y,HAM S Y,et al.Effect of biofilm inhibitor on biofouling resistance in RO processes[J].Fuel,2019,253:823-832.
[110]	GOLDMAN G,STAROSVETSKY J,ARMON R.Inhibition of biofilm formation on UF membrane by use of specific bacteriophages[J].Journal of Membrane Science,2009,342(1/2):145-152.
[111]	MA W,PANECKA M,TUFENKJI N,et al.Bacteriophage-based strategies for biofouling control in ultrafiltration:in situ biofouling mitigation,biocidal additives and biofilm cleanser[J].Journal of Colloid and Interface Science,2018,523:254-265.