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浸渍相转化法可以制备非对称结构的陶瓷中空纤维膜.本文讨论了陶瓷中空纤维膜的发展情况,并着重探讨了各因素对膜孔结构的影响.大量陶瓷粉体存在情况下的相转化机理,孔结构与力学强度的平衡问题,是目前需要重点关注的两个问题.有效调节孔结构,保证其力学性能可以实现陶瓷中空纤维膜在分离和纯化、固体氧化物燃料电池、膜催化器和膜反应器等方面的广泛应用.

参考文献

[1] 杨座国,膜科学技术过程与原理.上海:华东理工大学出版社,2009:1.
[2] Li K,Tan X Y,Liu S M.Preparation and characterization of inorganic hollow fiber membranes.J.Membr.Sci.,2001,188(1):87-95.
[3] Hsieh H P.Inorganic membrane reactors-a review.Membr.Rea.Tech.,1989,85:53-67.
[4] Saracco G,Versteeg G F,Vanswaaij W P M.Current hurdles to the success of high-temperature membrane reactors.J.Membr.Sci.,1994,95(2):105-123.
[5] Wei C C,Chen O Y,Liu Y,et al.Ceramic asymmetric hollow fibre membranes-one step fabrication process.J.Membr.Sci.,2008,320(1/2):191-197.
[6] Armor J N.Applications of catalytic inorganic membrane reactors to refinery products.J.Membr.Sci.,1998,147(2):217-233.
[7] Hoek E M V,Guillen G R,Pan Y J,et al.Preparation and characterization of membranes formed by nonsolvent induced phase separation:a review.Ind.Eng.Che.Res.,2011,50(7):3798-3817.
[8] Xu J H,Yao J F,Zeng C F,et al.Preparation of binderless honeycomb silicalite-1 monolith by using bundled palm fibers as template.J.Porous Mater.,2010,17(3):329-334.
[9] Li J,Qi H Y,Shi Y P.Applications of titania and zirconia hollow fibers in sorptive microextraction of N,N-dimethylacetamide from water sample.Anal.Chim.Acta,2009,651(2):182-187.
[10] Xu L,Lee H K.Zirconia hollow fiber:preparation,characterization,and microextraction application.Anal.Chem.,2007,79(14):5241-5248.
[11] Liu W W,Zeng C F,Zhang L X,et al.Facile and versatile preparation of silicalite-1 hollow structures using cotton threads as templates.Mater.Chem.Phys.,2007,103(2/3):508-514.
[12] Yuan R S,Fu X Z,Wang X C,et al.Template synthesis of hollow metal oxide fibers with hierarchical architecture.Chem.Mater.,2006,18(19):4700-4705.
[13] Lu H Q,Zhang L X,Xing W H,et al.Preparation ofTiO2 hollow fibers using poly(vinylidene fluoride) hollow fiber microfiltration membrane as a template.Mater.Chem.Phys.,2005,94(2/3):322-327.
[14] Sigmund W,Yuh J,Park H,et al.Processing and structure relationships in electrospinning of ceramic fiber systems.J.Am.Ceram.Soc.,2006,89(2):395-407.
[15] Zhang Y F,Li J Y,Li Q,et al.Preparation of CeO2-ZrO2 ceramic fibers by electrospinning.J.Colloid Interface ScL,2007,307(2):567-571.
[16] Maneeratana V,Sigmund W M.Continuous hollow alumina gel fibers by direct electrospinning of an alkoxide-based precursor.Chem.Eng.J.,2008,137(1):137-143.
[17] Sun Y,Li J Y,Tan Y,etal.Fabricatiion of aluminum nitdde (AIN)hollow fibers by carbothermal reduction and nitridation of electrospun precursor fibers.J.Alloys Compd,2009,471(1/2):400-403.
[18] Zeman L,Fraser T.Formation of air-cast cellulose-acetate membranes.1.Study of macrovoid formation.J.Membr.Sci,1993,84(1/2):93-106.
[19] Zeman L,Fraser T.Formation of air-cast cellulose-acetate membranes.2.Kinetics of demixing and microvoid growth.J.Membr.Sci.,1994,87(3):267-279.
[20] Lloyd D R,Kim S S,Kinzer K E.Microporous membrane formation via thermally-induced phase-separation.2.Liquid liquid-phase separation.J.Membr.Sci.,1991,64(1/2):1-11.
[21] Lloyd D R,Kinzer K E,Tseng H S.Microporous membrane formation via thermally induced phase-separation.1.Solid liquid-phase separation.J.Membr.Sci,1990,52(3):239-261.
[22] Kang Y S,Kim H J,Kim U Y.Asymmetric membrane formation via immersion precipitation method.I.Kinetic effect.J.Membr.Sci.,1991,60(2/3):219-232.
[23] Radovanovic P,Thiel S W,Hwang S T.Formation of asymmetric polysulfone membranes by immersion precipitation.1.Modeling mass-transport during gelation.J.Membr.Sci.,1992,65(3):213-229.
[24] Radovanovic P,Thiel S W,Hwang S T.Formation of asymmetric polysulfone membranes by immersion precipitation.2.The effects of casting solution and gelation bath compositions on membranestructure and skin formation.J.Membr.Sci,1992,65(3):231-246.
[25] Loeb S,Sourirajan S.High Flow Porous Membranes for Separating Water from Saline Solutions.United States,US3133132.1964.
[26] Lee K H,Kim Y M.Asymmetric hollow inorganic membranes.Key Eng.Mater.,1991,61:17-22.
[27] Deshmukh S P,Li K.Effect of ethanol composition in water coagulation bath on morphology of PVDF hollow fibre membranes.J.Membr.Sci,1998,150(1):75-85.
[28] 左丹英.溶液相转化法制备PVDF微孔膜过程中的结构控制及其性能研究.杭州:浙江大学博士论文,2005.
[29] Strathmann H,Kock K.The formation mechanism of phase inversion membranes.Desalination,1977,21(3):241-255.
[30] Husain S,Koros W J.Macrovoids in hybrid organic/inorganic hollow fiber membranes.Ind.Eng.Chem.Res.,2009,48(5):2372-2379.
[31] Smolders C A,Reuvers A J,Boom R M,et al.Microstructures in phase-inversion membranes.l.Formation of macrovoids.J.Membr.Sci.,1992,73(2/3):259-275.
[32] Cohen C,Tanny G B,Prager S D.Diuffsion-controlled formation of Porous structures in ternary polymer systems.J.Polym.Sci.:Polym.Phys.Ed,1979,17(3):477-489.
[33] Tsay C S,Mchugh A J.Mass-transfer modeling of asymmetric membrane formation by phase inversion.J.Polym.Sci.,Part B:Polym.Phys.,1990,28(8):1327-1365.
[34] Wara N M,Francis L F,Velamakanni B V.Addition of alumina to cellulose acetate membranes.J.Membr.Sci.,1995,104(1/2):43-49.
[35] Li K,Tan X Y,Liu Y T.Single-step fabrication of ceramic hollow fibers for oxygen permeation.J.Membr.Sci,2006,272(1/2):1-5.
[36] Dobo E J.Process to Produce Inorganic Hollow Fibers.1980.
[37] Hatim M D,Tan X Y,Wu Z T,et al.Pd/Al2O3 composite hollow fibre membranes:effect of substrate resistances on H2 permeation properties.Chem.Eng.Sci,2011,66(6):1150-1158.
[38] Li K,Kingsbury B F K.A morphological study of ceramic hollow fibre membranes.J.Membr.Sci.,2009,328(1/2):134-140.
[39] Tan X Y,Li K.Oxygen production using dense ceramic hollow fiber membrane modules with different operating modes.AiChE J.2007,53(4):838-845.
[40] Liu S M,Li K,Hughes R.Preparation of porous aluminium oxide (Al2O3) hollow fibre membranes by a combined phase-inversion and sintering method.Ceran.Int.,2003,29(8):875-881.
[41] Koonaphaptleelert S,Li K.Preparation and characterization of hydrophobic ceramic hollow fibre membrane.J.Membr.Sci.,2007,291(1/2):70-76.
[42] Tan X Y,Liu N,Meng B,et al.Honeycomb-structured perovskite hollow fibre membranes with ultra-thin densified layer for oxygen separation.Sep.Purif.Technol.,2011,80(2):396-401.
[43] Tan X Y,Wang Z G,Li K.Effects of sintering on the properties of La0.6Sr0.4Co0.2Fe0.8O3-δ perovskite hollow fiber membranes.Ind.Eng.Chem.Res.,2010,49(6):2895-2901.
[44] Li K,Wang B,Zydorczak B,et al.Stabilities of La0.6Sr0.4Co0.2Fe0.8O3-δ oxygen separation membranes-effects of kinetic demixing/decomposition and impurity segregation.J.Membr.Sci.,2009,344(1/2):101-106.
[45] Li K,Zydorczak B,Wu Z T.Fabrication of ultrathin L a0.6Sr0.4Co0.2Fe0.8O3-δ hollow fibre membranes for oxygen permeation.Chem.Eng.Sci.,2009,64(21):4383-4388.
[46] Pan X L,Stroh N,Brunner H,et al.Pd/ceramic hollow fibers for H2 separation.Sep.Purif.Technol.,2003,32(1/2/3):265-270.
[47] Sun G B,Hidajat K,Kawi S.Ultra thin Pd membrane on α-Al2O3 hollow fiber by electroless plating:high permeance and selectivity.J.Membr.Sci.,2006,284(1/2):110-119.
[48] Wang W P,Thomas S,Zhang X L,et al.H2/N2 gaseous mixture separation in dense pd/alpha-Al2O3 hollow fiber membranes:experimental and simulation studies.Sep.Pur.Tech.,2006,52(1):177-185.
[49] Alshebani A,Pera-Titus M,Landrivon E,et al.Nanocomposite MFI-ceramic hollow fibres:prospects for CO2 separation.Microporous Mesoporous Mater.,2008,115(1/2):197-205.
[50] Daramola M O,Burger A J,Pera-Titus M,et al.Nanocomposite MFI-ceramic hollow fibre membranes via pore-plugging synthesis:prospects for xylene isomer separation.J.Membr.Sci,2009,337(1/2):106-112.
[51] Thursfield A,Metcalfe I S.The use of dense mixed ionic and electronic conducting membranes for chemical production.J.Mater.Chem.,2004,14(16):2475-2485.
[52] Sunarso J,Baumann S,Serra J M,et al.Mixed ionic-electronic conducting (MIEC) ceramic-based membranes for oxygen separation.J.Membr.Sci.,2008,320(1/2):13-41.
[53] Li K.,Wu Z T,Wang B.A novel dual-layer ceramic hollow fibre membrane reactor for methane conversion.J.Membr.Sci.,2010,352(1/2):63-70.
[54] Gbenedio E,Wu Z T,Hatim I,et al.A multifunctional Pd/alumina hollow fibre membrane reacter for propane dehydrogenation.Catal.Today,2010,156(3/4):93-99.
[55] Li J X,Yang Y,Wang H,et al.An electrocatalytic membrane reactor with self-cleaning function for industrial wastewater treatment.Angew.Chem.Int.Ed.,2011,50(9):2148-2150.
[56] Di Trapani D,Capodici M,Cosenza A,et al.Evaluation of biomass activity and wastewater characterization in a uctmbr pilot plant by means of respirometric techniques.Desalination,2011,269(1/2/3):190-197.
[57] Yang N T,Tan X Y,Ma Z F,et al.Fabrication and characterization of Ce0.8Sm0.2O1.9 microtubular dual-structured electrolyte membranes for application in solid oxide fuel cell technology.J.Am.Ceram.Soc.,2009,92(11):2544-2550.
[58] Britt D W,Madsen B,Griffiths F,et al.Effect of sterilization techniques on the physicochemical properties of polysulfone hollow fibers.J.Appl.Polym.Sci.,2011,119(6):3429-3436.
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