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60%[1]。、。1960。、、、[2]。80、30。1501952“”。1953CEReidSWRO。。。1960SLoebSSourirajan98.6%10.1MPa10.8L/(m2·h)[3]。[4-5]。、、[6]。-。1963Riley[7]。-NS-100[8]TDIPS。NS-100[9]。1980FilmTechTMCMPDFT-30[10]12111.1300222.100049。。。、、。TQ028.8P747A1000-3770(2015)10-0053-0062015-08-019732015CB6553025113300851203151210741332137411620130204027GX1982-dailei@ciac.ac.cnsbzhang@ciac.ac.cn4110201510TECHNOLOGYOFWATERTREATMENTVol.41No.10Oct.,201553TMCMPD[11-14]。[15]、[16-17]、[18-19]、NanowaterQuantumFlux[20]。2。。2.1TMC。1991[21]TMC。、、、、[22]。[16-17]5--CFIC、5--ICIC、1,3,5-HT。I-CIC-MPD[23-25]。--MPD-ICIC@ICIC-DMMPD[26]。1[18-19]。。。[27]。[28]。[29-30]、、[31]。2.2。2[9]。3,5-SMPD、1,4-HDA、N,N'-DMMPD[32-33]。CFICMPDDMMPDSWRO[34-36]。N-(4-)-3,5-DABA[18]DABA、。DABA50%。2Fig.2Chemicalstructureformulasofsomemulti-aminesMPDPPPDAPIPPmASHDMAHDATMCmm-BTECop-BTECom-BTECBTACBPACBHAC1Fig.1Structuresoftheacylchloridemonomers411054。3。Kim[37]DMSO50%。DMSODMSOMPD。[38]HMPA。Tsuru[39]CAIP。4。、、。Ramon[40]、。Ghosha[41]。McCutcheon[42]。[43]。54nmSWRO-120℃99.93%40L/(m2·h)97nmSWRO-299.8%46L/(m2·h))。55.1。HoekYan[44]、、。Kong[45]95%。。[46]。Elimelech[47]SWNTs。Bang[48]MWCNT。[49]。5.2。。。ParkFreeman[50]。20%。。Lee[51]。55Colquhoun[52]PVA。5.3。。。[53-54]。Belfer[55]。2002Freger[56]。[57]SPES-NH2SPES-NH2。[58]。[59-60]PVAPVAPVA。Kim[61]TiO2MPD-TMC。。Louie[62]//。6。、。。、、、、。、“”。[1].[J].,2014,40(12):1-4.[2].[J].,2012,2:11-13.[3]LoebS,SourirajanS.Seawaterdemineralizationbymeansofanosmoticmembrane[M].AdvChemSer.,1963,38:117-132.[4]ReidCE,BretonEJ.Waterandionflowacrosscellulosicmem-branes[J].JApplPolymSci.,1959,1(2):133-134.[5],,,.[J].,2014,34(3):59-62.[6],.[J].,2010:1.[7].[M].:,2007:523-524.[8]CadotteJE.Reverseosmosismembrane:US,4039440[P].1975.[9],,,.[J].,2008,20(7/8):1216-1221.[10]LarsonRE,CadotteJE,PetersenRJ.TheFT-30seawaterreverseosmosismembrane--elementtestresults[J].Desalination,1981,38:473-483.[11]RileyRL,CasePA,LloydAL,etal.Recentdevelopmentsinthin-filmcompositereverseosmosismembranesystems[J].Desali-nation,1981,36(3):207-233.[12]ParriniP.Polypiperazinamides:newpolymersusefulformembraneprocesses[J].Desalination,1983,48(1):67-78.[13]CadotteJE.Interfaciallysynthesizedreverseosmosismembrane:US,4277344[P].1981.[14]SundetSA,ArthurSD,CamposD,etal.Aromatic/cycloaliphaticpolyamidemembrane[J].Desalination,1987,64:259-269.[15]UemuraT,HimeshimaY,KuriharaM.Interfaciallysynthesizedre-verseosmosismembrane:US,4761234[P].1988.[16],,,.5-[J].,2005,22(3):227-230.[17],,,.5--[J].,2013,32(1):184-187.[18].、[D].:,2009.[19].[D].:,2013.[20]KurthCJ,RobertL,Burk,GreenJ.Leveragingnanotechnologyforseawaterreverseosmosis[DB].IDAWorldCongress,2009,11:7-12.[21],.[J].,1991,22(1):41105642-45.[22],.[J].,2011,31(3):1-4.[23]LiuL-F,YuS-C,ZhouY,etal.Studyonanovelpolyamide-ureareverseosmosiscompositemembrane(ICIC-MPD)I.PreparationandcharacterizationofICIC-MPDmembrane[J].JMembrSci.,2006,281:88-94.[24]LiuL-F,YuS-C,WuL-G,etal.Studyonanovelpolyamide-ureareverseosmosiscompositemembrane(ICIC-MPD)II.Analysisofmembraneantifoulingperformance[J].JMembrSci.,2006,283:133-146.[25]LiuL-F,YuS-C,WuL-G,etal.Studyonanovelantifoulingpolyamide-ureareverseosmosiscompositemembrane(ICIC-MPD)III.Analysisofmembraneelectricalproperties[J].JMembrSci.,2008,310:119-128.[26],,,.(--)[J].,2015,36(4):765-771.[27]LiL,ZhangS-B,ZhangX-S,etal.Polyamidethinfilmcompositemembranespreparedfromisomericbiphenyltetraacylchlorideandm-phenylenediamine[J].JMembrSci.,2008,31:20-27.[28]WangT-Y,DaiL,ZhangQ-F,LiA,ZhangS-B.Effectsofacylchloridemonomerfunctionalityonthepropertiesofpolyamidereverseosmosis(RO)membrane[J].JMembrSci.,2013,440:48-57.[29]LiL,ZhangS-B,ZhangX-S,etal.Preparationandcharacterizationofpoly(piperazineamide)compositena-nofiltrationmembranebyinterfacialpolymerizationof3,3′,5,5′-biphenyltetraacylchlorideandpiperazine[J].JMembrSci.,2009,335:133-139.[30]WangT-Y,YangY-Q,ZhengJ-F,etal.Anovelhighlypermeablepositivelychargednano-filtrationmembranebasedonananoporoushyper-crosslinkedpolyamidebarrierlayer[J].JMembrSci.,2013,448:180-189.[31],,,.[J].,2014,16(12):17-34.[32]ZhouY,YuS-C,GaoC-J,etal.Polyamidethinfilmcompositemembranepreparedfromm-phenylenediamineandm-phenylenediamine-5-sulfonicacid[J].JMembrSci.,2006,270:162-168.[33],,,.NaBH4-I2N,N'-[J].,2011,32(11):2558-2561.[34]LiuM-H,YuS-C,TaoJ,GaoC-J.Preparation,structurecharacter-isticsandseparationpropertiesofthin-filmcompositepolyamide-urethaneseawaterreverseosmosismembrane[J].JMembrSci.,2008,325:947-956.[35]LiuM-H,YuS-C,GaoC-J,etal.Impactofmanufacturetechniqueonseawaterdesalinationperformanceofthin-filmcompositepolyamide-urethanereverseosmosismembranesandtheirspiralwoundelements[J].JMembrSci.,2010,348:268-276.[36]LiuL-F,CaiZ-B,HoekEM.V,GaoC-J,etal.Fabricationandcharacterizationofanovelpoly(amide-urethane@imide)TFCreverseosmosismembranewithchlorine-tolerantproperty[J].JMembrSci.,2014,469:397-409.[37]KwakSY,JungSG,KimSH.Strucutre-motion-performancerela-tionshipofflux-enhancedreverseosmo-sis(RO)membranescom-posedofaromaticpolyamidethinfilms[J].EnvironSciTechnol.,2001,35:4334-4340.[38]DuanM,WangZ,XuJ,etal.Influneceofhexamethylphospho-ramideonpolyamide
本文标题:海水淡化反渗透复合膜材料的研究进展
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