The influencing factors and modification of small organic molecule/inorganic salt membrane separation
SHI Shuo-qing, YU Su-ping, ZHOU Ru-tong, QI Guang-xia, DONG Li-ming
Key Laboratory of Cleaner Production and Integrated Resource Utilization of China National Light Industry, National Key Laboratory of Environmental Protection Food Chain Pollution Prevention and Control, School of Environment and Ecology, Beijing Technology and Business University, Beijing 100048, China
Abstract:Under the background of carbon peaking and carbon neutrality, sewage treatment and resource utilization technology will be inevitably move towards the direction of "green and low-carbon". The separation of organic small molecules and inorganic salts have become one of the current constraints on the resource utilization of wastewater. Although membrane technology can be employed for this purpose, the factors influencing the separation of organic small molecules and inorganic salts have not been definitively determined. To accelerate the progress of wastewater resource utilization, this paper summarized the main factors that influence membrane separation of organic small molecules and inorganic salts, and introduced strategies that can improve membrane performance. The pore size of the membrane and the electronegativity of its surface are the key factors in the separation of organic small molecules and inorganic salts using membrane technologies. Furthermore, loose nanofiltration membranes with high hydrophilicity and positive charge represent the future direction in the development of small organic molecule/inorganic salt separation membranes.
谭路,龚丽,张丰,等.无机盐-有机小分子分离膜的研究进展[J].膜科学与技术, 2020,40(1):211-219.Tang L, Gong L, Zhang F, et al.Research progress on inorganic salt-small organic molecules separation membrane [J].Membrane Science and Technology(Chinese), 2020,40(1):211-219.
[2]
Yaseen D A, Scholz M.Textile dye wastewater characteristics and constituents of synthetic effluents:a critical review [J].International Journal of Environment Science and Technology, 2019,16(2):1193-1226.
[3]
Guo N, Wang Y K, Tong T Z, et al.The fate of antibiotic resistance genes and their potential hosts during bio-electrochemical treatment of high-salinity pharmaceutical wastewater [J].Water Research, 2018, 133:79-86.
[4]
Chen G Q, Gras S L, Kentish S E.Separation Technologies for Salty Wastewater Reduction in the Dairy Industry [J].Separation and Purification reviews, 2019,48(4):325-353.
[5]
Yu L, Zhang Y T, Zhang H Q, et al.Development of a molecular separation membrane for efficient separation of low-molecular-weight organics and salts [J].Desalination, 2015,359:176-185.
[6]
郭灵艺,谢锐,巨晓洁,等.电中性纳滤膜及其染料脱盐和抗污染性能研究[J].膜科学与技术, 2022,42(6):134-143.Guo L Y, Xie R, Ju X J, et al.Electroneutral nanofiltration membrane and its dye desalination and anti-fouling performance [J].Membrane Science and Technology(Chinese), 2022,42(6):134-143.
[7]
Ecer J, Farova H.Desalination of ultrafiltration permeates of whey by electrodialysis [J].Science and Research, 2017,28(164):9-12.
[8]
Panagopoulos A.Brine management (saline water & wastewater effluents):Sustainable utilization and resource recovery strategy through Minimal and Zero Liquid Discharge (MLD & ZLD) desalination systems [J].Chemical Engineering and Processing-Process intensification, 2022,176:12-33.
[9]
Wang C C, Sun H, Wang N X, et al.Robust ZIF-8 and its derivative composite membrane for antibiotic desalination with high performance [J].Separation and Purification Technology, 2023,307:8-15.
[10]
Hegab H M, Zou L D.Graphene oxide-assisted membranes:Fabrication and potential applications in desalination and water purification [J].Journal of Membrane Science, 2015,484:95-106.
[11]
Qiu Y B, Lv Y Y, Tang C, et al.Sustainable recovery of high-saline papermaking wastewater:Optimized separation for salts and organics via membrane-hybrid process [J].Desalination, 2021,507:13.
[12]
王韬,王枢,张兆利,等.有机小分子/无机盐混合溶液纳滤膜分离研究进展[J].化工进展, 2012,31(10):2144-2151.Wang T, Wang S, Zhang Z L, et al.Development of the separation of small molecular organic/inorganic salt mixtures by nanofiltration membrane:A review [J].Chemical Industry and Engineering Progress, 2012,31(10):2144-2151.
[13]
陈洪斌,朱冠楠,张东宇,等.石化废水深度处理及脱盐的中试研究[J].中国环境科学, 2009,29(9):929-934.Chen H B, Zhu G N, Zhang D Y, et al.Pilot study on oil refinery wastewater advanced treatment and desalination [J].China Environmental Science, 2009,29(9):929-934.
[14]
Liu C L, Mao H C, Zheng J F, et al.Tight ultrafiltration membrane:Preparation and characterization of thermally resistant carboxylated cardo poly (arylene ether ketone)s (PAEK-COOH) tight ultrafiltration membrane for dye removal [J].Journal of Membrane Science, 2017, 530:1-10.
[15]
Liu C L, Mao H C, Zheng J F, et al.In situ surface crosslinked tight ultrafiltration membrane prepared by one-step chemical reaction-involved phase inversion process between activated PAEK-COOH and PEI [J].Journal of Membrane Science, 2017,538:58-67.
[16]
Jiang G S, Zhang S X, Zhu Y Z, et al.Hydrogel-embedded tight ultrafiltration membrane with superior anti-dye-fouling property for low-pressure driven molecule separation [J].Journal of Materials Chemistry, 2018,6(7):2927-2934.
[17]
Liu Z X, Mi Z M, Chen C H, et al.Preparation of hydrophilic and antifouling polysulfone ultrafiltration membrane derived from phenolphthalin by copolymerization method [J].Applied Surface Science, 2017,401:69-78.
[18]
Zhang L H, Guan H F, Zhang N, et al.A loose NF membrane by grafting TiO2-HMDI nanoparticles on PES/beta-CD substrate for dye/salt separation [J].Separation Purification Technology, 2019,218:8-19.
[19]
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, 2021,406:12.
[20]
Kang X, Cheng Y Y, Wen Y, et al.Bio-inspired co-deposited preparation of GO composite loose nanofiltration membrane for dyecontaminated wastewater sustainable treatment [J].Journal of Hazardous Materials, 2020,400:11.
[21]
Zhu J Y, Tian M M, Zhang Y T, et al.Fabrication of a novel "loose" nanofiltration membrane by facile blending with Chitosan-Montmorillonite nanosheets for dyes purification [J].Chemical Engineering Journal, 2015,265:184-193.
[22]
Xiang J, Li H, Hei Y H, et al.Preparation of highly permeable electropositive nanofiltration membranes using quaternized polyethyleneimine for dye wastewater treatment [J].Journal Water Process Engineering, 2022,48:10.
[23]
侯春光,文剑平,庞志广,等.耐污染超滤膜的研究进展[J].膜科学与技术, 2021,41(2):157-168.Hou C G, Wen J P, Pang Z G, et al.Research progress of constructing anti-fouling ultrafiltration membrane [J].Membrane Science and Technology(Chinese), 2020,40(1):211-219.
[24]
Jin J B, Du X L, Yu J, et al.High performance nanofiltration membrane based on SMA-PEI cross-linked coating for dye/salt separation [J].Journal of Membrane Science, 2020,611:9.
[25]
Wang Y, Bao C Y, Li D, et al.Antifouling and chlorine-resistant cyclodextrin loose nanofiltration membrane for high-efficiency fractionation of dyes and salts [J].Journal of Membrane Science, 2022, 661:14.
[26]
Wang Q, Dai F N, Zhang S Y, et al.Design of a novel poly(aryl ether nitrile)-based composite ultrafiltration membrane with improved permeability and antifouling performance using zwitterionic modified nano-silica [J].RSC Advances, 2021,11(25):15231-15244.
[27]
Feng Y, Liu Q, Lin X C, et al.Hydrophilic nanowire modified polymer ultrafiltration membranes with high water flux [J].ACS Applied Materials & Interfaces, 2014,6(21):19161-19167.
[28]
Liu H Q, Chen Y B, Hu X Y, et al.TiO2/PVDF hollow fiber membranes for the separation of dyes and salts (NaCl and Na2SO4) during textile wastewater treatment [J].Desalination and Water Treatment, 2018,119:90-96.
[29]
Xu Z W, Wu T F, Shi J, et al.Photocatalytic antifouling PVDF ultrafiltration membranes based on synergy of graphene oxide and TiO2 for water treatment [J].Journal of Membrane Science, 2016,520:281-293.
[30]
Wang Q, Zhang S Y, Dai F N, et al.Enhanced antifouling property of poly(aryl ether nitrile) ultrafiltration membranes via copolymerization with phenolphthalein [J].Journal Environment Chemical Engineering, 2021,9(5):14.
[31]
Hu M Y, Cui Z Y, Yang S Q, et al.Pregelation of sulfonated polysulfone and water for tailoring the morphology and properties of polyethersulfone ultrafiltration membranes for dye/salt selective separation [J].Journal of Membrane Science, 2021,618:10.
[32]
常国梁,龚耿浩.联苯酚基聚芳酯疏松纳滤膜的制备及其性能[J].膜科学与技术, 2023,43(1):74-82.Chang G L, Gong G H.Preparation and performance of 2,2'-biphenolbased polyarylester loose nanofiltration membrane [J].Membrane Science and Technology(Chinese), 2023,43(1):74-82.
[33]
Zhao S S, Yao Y X, Ba C Y, et al.Enhancing the performance of polyethylenimine modified nanofiltration membrane by coating a layer of sulfonated poly(ether ether ketone) for removing sulfamerazine [J].Journal of Membrane Science, 2015,492:620-629.
[34]
Burts K S, Plisko T V, Bildyukevich A V, et al.Modification of polysulfone ultrafiltration membranes using block copolymer Pluronic F127[J].Polymer Bulletin, 2021,78(11):6549-6576.
[35]
Liu Y A, Su Y L, Zhao X T, et al.Improved antifouling properties of polyethersulfone membrane by blending the amphiphilic surface modifier with crosslinked hydrophobic segments [J].Journal of Membrane Science, 2015,486:195-206.
[36]
Liu Z X, Mi Z M, Jin S Z, et al.The influence of sulfonated hyperbranched polyethersulfone-modified halloysite nanotubes on the compatibility and water separation performance of polyethersulfone hybrid ultrafiltration membranes [J].Journal of Membrane Science, 2018,557:13-23.
[37]
Liu Y P, Wang J, Wang Y, et al.High-flux robust PSf-b-PEG nanofiltration membrane for the precise separation of dyes and salts [J].Chemical Engineering J, 2021,405:9.
[38]
Yu L, Zhang Y T, Wang Y M, et al.High flux, positively charged loose nanofiltration membrane by blending with poly (ionic liquid) brushes grafted silica spheres [J].Journal of Hazardous Materials, 2015,287:373-383.
[39]
Chen L, Wang W P, Fang Q Y, et al.High performance hierarchically nanostructured graphene oxide/covalent organic framework hybrid membranes for stable organic solvent nanofiltration [J].Applied Materials Today, 2020,20:9.
[40]
Zhu J Y, Zhang Y T, Tian M M, et al.Fabrication of a mixed matrix membrane with in situ synthesized quaternized polyethylenimine nanoparticles for dye purification and reuse [J].ACS Sustainable Chemistry Engineering, 2015,3(4):690-701.
[41]
Liu L, Qu S Y, Yang Z X, et al.Fractionation of Dye/NaCl mixtures using loose nanofiltration membranes based on the incorporation of WS2 in self-assembled layer-by-layer polymeric electrolytes [J].Industrial Engineering Chemistry Research, 2020,59(40):18160-18169.
[42]
张哲,王磊,贺苗露,等.UIO-66改性聚酰胺正渗透复合膜的制备及性能研究[J].中国环境科学, 2020,40(6):2418-2425.Zhang Z, Wang L, He M L, et al.Preparation and performance of UIO-66modified thin-film nanocomposite membrane for forward osmosis [J].China Environmental Science, 2020,40(6):2418-2425.
[43]
姜钦亮,王一雯,付尹宣,等.O-MoS2改性PMIA疏松纳滤膜的制备及其性能[J].膜科学与技术, 2021,41(3):126-134.Jiang Q L, Wang Y W, Fu Y X, et al.Preparation and properties of O-MoS2 modified PMIA flat sheet loose nanofiltration membrane [J].Membrane Science and Technology(Chinese), 2021,41(3):126-134.
[44]
He Y R, Zhao D L, Chung T S.Na+ functionalized carbon quantum dot incorporated thin-film nanocomposite membranes for selenium and arsenic removal [J].Journal of Membrane Science, 2018,564:4834-91.
[45]
Han Y, Jiang Y Q, Gao C.High-flux graphene oxide nanofiltration membrane intercalated by carbon nanotubes [J].ACS Applied Materials & Interfaces, 2015,7(15):8147-8155.
[46]
Daraei P, Ghaemi N, Ghari H S.An ultra-antifouling polyethersulfone membrane embedded with cellulose nanocrystals for improved dye and salt removal from water [J].Cellulose, 2017,24(2):915-929.
[47]
Chen X R, Su Y, Shen F, et al.Antifouling ultrafiltration membranes made from PAN-b-PEG copolymers:Effect of copolymer composition and PEG chain length [J].Journal of Membrane Science, 2011,384(1/2):44-51.
[48]
Zhou R, Ren P F, Yang H C, et al.Fabrication of antifouling membrane surface by poly(sulfobetaine methacrylate)/polydopamine co-deposition [J].Journal of Membrane Science, 2014,466:18-25.
[49]
Jalalia, Shockravi A, Vatanopour V, et al.Preparation and characterization of novel microporous ultrafiltration PES membranes using synthesized hydrophilic polysulfide-amide copolymer as an additive in the casting solution [J].Microporous and Mesoporous Materials, 2016,228:1-13.
[50]
韩璐,许振良,杨虎,等.抽滤法制备PVA/PVDF复合纳滤膜的结构及性能评价[J].膜科学与技术, 2018,38(5):69-76.Han L, Xv Z L, Yang H, et al.Structure and property investigation of PVA/PVDF composite nanofiltration membrane prepared by filtration procedure [J].Membrane Science and Technology(Chinese), 2018, 38(5):69-76.
[51]
ZinadiniI S, Zinatizadeh A A, Rahimi M, et al.Novel high flux antifouling nanofiltration membranes for dye removal containing carboxymethyl chitosan coated Fe3O4 nanoparticles [J].Desalination, 2014,349:145-154.
[52]
Ma J, Guo X Y, Ying Y P, et al.Composite ultrafiltration membrane tailored by MOF@GO with highly improved water purification performance [J].Chemical Engineering Journal, 2017,313:890-898.
[53]
Zhao S, Wang Z.A loose nano-filtration membrane prepared by coating HPAN UF membrane with modified PEI for dye reuse and desalination [J].Journal of Membrane Science, 2017,524:214-224.
[54]
谢德华,施周,陈世洋.水中污染物对阳离子交换膜分离去除Cu2+的影响[J].中国环境科学, 2012,32(3):440-446.Xie D H, Shi Z, Chen S Y.Effect of water pollutants to copper ion removal by using cation exchange membrane [J].China Environmental Science, 2012,32(3):440-446.
[55]
Zhang P, Gong J L, Zeng G M, et al.Ultrathin reduced graphene oxide/MOF nanofiltration membrane with improved purification performance at low pressure [J].Chemosphere, 2018,204:378-389.
[56]
Zheng J F, Li Y, Xu D L, et al.Facile fabrication of a positively charged nanofiltration membrane for heavy metal and dye removal [J].Separtion and Purification Technology, 2022,282:10.
[57]
Sheng F M, Li X Y, Li Y Y, et al.Cationic covalent organic framework membranes for efficient dye/salt separation [J].Journal of Membrane Science, 2022,644:8.
[58]
Tavangar T, Karimi M, Rezakazemi M, et al.Textile waste, dyes/inorganic salts separation of cerium oxide-loaded loose nanofiltration polyethersulfone membranes [J].Chemical Engineering Journal, 2020,385:14.
[59]
陈英波,屈少一,刘磊,等.含双金属氢氧化物的聚酰亚胺/单宁酸双层膜的制备及染料脱盐[J].天津工业大学学报, 2021,40(3):40-46.Chen Y P, Qu C Y, Liu L, et al.Preparation and dye desalination of polyethyleneimine/tannic acid bilayer membrane containing double hydroxide [J].Journal of TianGong University, 2021,40(3):40-46.
[60]
陈慧娟,纪晓声,陈霄翔,等.纤维素/壳聚糖共混纳滤膜的制备及其染料脱盐性能研究[J].膜科学与技术, 2018,38(4):27-32.Chen H J, Ji X S, Chen X X, et al.Preparation of CEL/CS blend nanofiltration membranes for dye desalination [J].Membrane Science and Technology(Chinese), 2018,38(4):27-32.
[61]
Abdikheibari S, Lei W W, Dumee L F, et al.Novel thin film nanocomposite membranes decorated with few-layered boron nitride nanosheets for simultaneously enhanced water flux and organic fouling resistance [J].Applied Surface Science, 2019,488:565-577.
[62]
Wang T, Wu H Y, Zhao S, et al.Interfacial polymerized and pore-variable covalent organic framework composite membrane for dye separation [J].Chemical Engineering Journal, 2020,384:10.
[63]
Zheng Y P, Yao G H, Cheng Q B, et al.Positively charged thin-film composite hollow fiber nanofiltration membrane for the removal of cationic dyes through submerged filtration [J].Desalination, 2013, 328:42-50.
[64]
Ding J C, Wu H Q, Wu P Y.Preparation of highly permeable loose nanofiltration membranes using sulfonated polyethylenimine for effective dye/salt fractionation [J].Chemical Engineering Journal, 2020,396:11.
[65]
康旭,程源元,齐晶瑶,等.TA修饰GO-ZIF复合纳滤膜对染料MB的去除[J].环境科学学报, 2020,40:3666-3673.Kang X, Chen Y Y, Qi J Y, et al.TA modified GO-ZIF composite nanofiltration membrane for MB removal [J].Acta Scientiae Circumstantiae, 2020,40(10):3666-3673.
[66]
Liang X, Wang P H, Wang J, et al.Zwitterionic functionalized MoS2 nanosheets for a novel composite membrane with effective salt/dye separation performance [J].Journal of Membrane Science, 2019,573:270-279.
[67]
Dong L X, Huang X C, Wang Z, et al.A thin-film nanocomposite nanofiltration membrane prepared on a support with in situ embedded zeolite nanoparticles [J].Separation Purification Technology, 2016,166:230-239.
[68]
Xue J, Shen J L, Zhang R N, et al.High-flux nanofiltration membranes prepared with beta-cyclodextrin and graphene quantum dots [J].Journal of Membrane Science, 2020,612:8.
[69]
Kang H, Shi J, Liu L Y, et al.Sandwich morphology and superior dye-removal performances for nanofiltration membranes self-assemblied via graphene oxide and carbon nanotubes [J].Applied Surface Science, 2018,428:990-999.
[70]
Shan L L, Gu J H, Fan H W, et al.Microphase diffusion-controlled interfacial polymerization for an ultrahigh permeability nanofiltration membrane [J].ACS Applied Materials & Interfaces, 2017,9(51):44820-44827.
[71]
Li Y, Li S, Zhu J Y, Zhu J Y, et al.Controllable synthesis of a chemical stable molecular sieving nanofilm for high efficient organic solvent nanofiltration [J].Chemical Science, 2022,4263-4271.
[72]
Liu Z X, Wang L, Mi Z M, et al.A carboxyl potassium salt polysulfone (PSF-COOK)-embedded mixed matrix membrane with high permeability and anti-fouling properties for the effective separation of dyes and salts [J].Applied Surface Science, 2019,490:7-17.
