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Journal of Polymer Research

Erschienen in:

01.08.2019 | Original Paper

Water desalination and dyes separation from industrial wastewater by PES/TiO₂NTs mixed matrix membranes

verfasst von: M. Shaban, H. AbdAllah, L. Said, Ashour M. Ahmed

Erschienen in: Journal of Polymer Research | Ausgabe 8/2019

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Abstract

In this study, a simple and low-cost method is introduced to fabricate polyethersulfone/TiO₂ nanotubes (PES/TiO₂NTs) membranes. The titanium dioxide nanotubes (TiO₂NTs) are prepared by the hydrothermal method. The diameter of the nanotubes is ranging from 10 to 13 nm. TiO₂NTs/PES mixed matrix membranes of different TiO₂NTs % (0.18%, 0.35%, 0.53%, and 0.85%) are prepared by phase inversion method. The effects of TiO₂NTs %, dye concentration, dye type, and contact time on the dye removal percent and flux are studied. The results showed that the removal % and permeate flux of the membrane for both desalination and dyes separation are enhanced through adding TiO₂NTs. Also, these membranes show nanofiltration (NF)-reverse osmosis (RO) behavior at 200 mbar vacuum pressure.

Vorheriger Artikel Polymerization of ε-caprolactone with degraded PET for its functionalization

Nächster Artikel Biodegradable dendrimer functionalized carbon nanotube-hybrids for biomedical applications

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Ching KP, How YN (2018) Review of low-cost point-of-use water treatment systems for developing communities. NPJ Clean Water 1:11 CrossRef

Clemencia R, Paul VB, Richard L, Palenque B, Brian D, Angus C, Philip W (2009) Indirect potable reuse: a sustainable water supply alternative. Int J Environ Res Public Health 6:1174–1209CrossRef

Mona AA (2018) Nanofiltration systems and applications in wastewater treatment: review article. Ain Shams Eng J 9:3077–3092CrossRef

Azile N, Anele M, Richard MM, Philiswa NN (2018) Wastewater treatment using membrane technology. Chapter pp 29–40 https://doi.org/10.5772/intechopen.76624

Andy CS, Walter K, Yufeng Z, Xianshe F (2014) Vacuum membrane distillation for desalination of water using hollow fiber membranes. J Membr Sci 455:131–142CrossRef

Mohamed K, Takeshi M (2004) Pervaporation and vacuum membrane distillation processes: modeling and experiments. AIChE J 50:1697–1712CrossRef

Abu-Zeid MAE, Zhang Y, Dong H, Zhang L, Chen H-L, Hou L (2015) A comprehensive review of vacuum membrane distillation technique. Desalination 356:1–14CrossRef

Javed A, Mansour A, Lawrence AD, Arun KS, Muthumareeswaran MR, Mukhtar H, Abdullah SA (2016) Atomic layer deposition of TiO₂ film on a polyethersulfone membrane: separation applications. J Polym Res 23:1–9CrossRef

Kesting RE (1985) Synthetic polymeric membranes. A structural perspective2nd edn. Wiley, New York

10.

Nunes SP, Peinemann K-V (2001) Membrane technology in the chemical industry. Wiley, WeinheimCrossRef

11.

Law YN, Mohammad A, Choe PL, Nidal H (2010) Polymeric membranes incorporated with metal/metal oxide nanoparticles: a comprehensive review. Desalination 308:15–33

12.

Hung W-S, Lin T-J, Chiao Y-H, Arijit S, Hsiao Y-C, Wickramasinghe SR, Hu C-C, Lee K-R, Lai J-Y (2018) Graphene-induced tuning of the d-spacing of graphene oxide composite nanofiltration membranes for frictionless capillary action-induced enhancement of water permeability. J Mater Chem A 6:19445–19454CrossRef

13.

Arash M, Ahmad R, Mohsen J, Majid P, Maryam K (2012) The effect of silver nanoparticle size on performance and antibacteriality of polysulfone ultrafiltration membrane. Desalination 306:41–50CrossRef

14.

Xue L, Jian H, Yu Z, Yaoping L, Ziming L, Zengnian S (2016) Characterization and antifouling performance of negatively charged PES/mesoporous silica ultrafiltration membrane for raw water filtration. Desalin Water Treat 57:10980–10987CrossRef

15.

Yuqing Z, Xing S, Zhenhua J, Yueling W (2011) Synthesis of sulfated Y-doped zirconia particles and effect on properties of polysulfone membranes for treatment of wastewater containing oil. J Hazard Mater 192:559–567CrossRef

16.

Maximous N, Nakhla G, Wan W, Wong K (2009) Preparation, characterization and performance of Al₂O₃/PES membrane for wastewater filtration. J Membr Sci 341:67–75CrossRef

17.

Garcıa A, Rodrıguez B, Ozturk D, Rosales M, Diaz DI, Mautner A (2018) Incorporation of CuO nanoparticles into thin-film composite reverse osmosis membranes (TFC-RO) for antibiofouling properties. Polym Bull 75:2053–2069CrossRef

18.

Dizge N, Gonuldas H, Ozay Y, Ates H, Ocakoglu K, Harputlu E, Yildirim S, Unyayar A (2017) Synthesis and performance of antifouling and self-cleaning polyethersulfone/ graphene oxide composite membrane functionalized with photoactive semiconductor catalyst. Water Sci Technol 75:670–685PubMedCrossRef

19.

Hung W-S, Chiao Y-H, Arijit S, Lin Y-W, Wickramasinghe SR, Hu C-C, Tsai H-A, Lee K-R, Lai J-Y (2019) Tuning the interlayer spacing of forward osmosis membranes based on ultrathin graphene oxide to achieve desired performance. Carbon 142:337–345CrossRef

20.

Li J-H, Shao X-S, Qing Z, Li M-Z, Zhang Q-Q (2013) The double effects of silver nanoparticles on the PVDF membrane: surface hydrophilicity and antifouling performance. Appl Surf Sci 265:663–670CrossRef

21.

Lassaad G, Zulfiqar AR, Sher BK, Khalid AA, Mohammad HA, El-Shahawi MS, Muhammad IR, Alberto F, Enrico D, Abdullah MA (2016) Preparation and characterization of PES-cobalt nanocomposite membranes with enhanced anti-fouling properties and performances. J Taiwan Inst Chem E 65:405–419CrossRef

22.

Li J-F, Xu Z-L, Yang H, Yu L-Y, Liu M (2009) Effect of TiO₂ nanoparticles on the surface morphology and performance of microporous PES membrane. Appl Surf Sci 255:4725–4732CrossRef

23.

Adewale G, Nawshad A, Virginie D, Shadi WH (2016) A critical review on recent polymeric and nanoenhanced membranes for reverse osmosis. RSC Adv 6:8134–8163CrossRef

24.

Pei SG, Ahmad FI (2015) Review: is interplay between nanomaterial and membrane technology the way forward for desalination? J Chem Technol Biotechnol 90:971–980CrossRef

25.

Silvia S, Francesco G, Mirko F, Marcel EB, Christiane C, Enrico D, Alberto F (2017) Preparation and characterization of polymeric-hybrid PES/TiO₂ hollow fiber membranes for potential applications in water treatment. Fibers 5:1–19CrossRef

26.

Kristina F, Paulina S, Igor A, Amira AL, Isabell T, Mathias K, Andrea P, Jan G, Agnes S (2018) Synthesis of high crystalline TiO₂ nanoparticles on a polymer membrane to degrade pollutants from water. Catalysts 8:376CrossRef

27.

Behnam K, Ishita B, Tanushree G, Thomas T, Mohtada S (2018) Robust fabrication of thin film polyamide-TiO₂ nanocomposite membranes with enhanced thermal stability and anti-biofouling propensity. Sci Rep 8:784CrossRef

28.

Kyung CS, Muhammad BQ, Sung HJ (2014) Hydrothermal synthesis of TiO₂ nanotubes and their application as an over-layer for dye-sensitized solar cells. RSC Adv 4:23223–23230CrossRef

29.

Rajesha K, Arun MI, Ismail AF, Suraya AR, Amir A (2013) Permeation, antifouling and desalination performance of TiO₂ nanotube incorporated PSf/CS blend membranes. Desalination 316:76–84CrossRef

30.

Shaban M, Heba A, Said L, Hamdy HS, Abdel Khalek A (2015) Preparation and characterization of TiO₂ NTs and effect of TiO₂ NTs% on the salt rejection and flux of polyethersulfone membrane. J Mater Sci Eng A 5:65–68

31.

Lin Y-J, Wang L, Chiu W-Y (2005) Preparation and characterization of titania nanotubes and hybrid materials derived from them. J Vac Sci Technol B 23:2398–2402CrossRef

32.

Shaban M, Ashraf AM, Abdallah H, Abd El-Salam HM (2018) Titanium dioxide nanoribbons/multi-walled carbon nanotube nanocomposite blended polyethersulfone membrane for brackish water desalination. Desalination 444:129–141CrossRef

33.

Shaban M, AbdAllah H, Said L, Hamdy HS, Abdel Khalek A (2015) Titanium dioxide nanotubes embedded mixed matrix PES membranes characterization and membrane performance. Chem Eng Res Des 95:307–316CrossRef

34.

Vahid V, Madaeni SS, Khataee AR, Salehi E, Zinadini S, Monfared HA (2012) TiO₂ embedded mixed matrix PES nanocomposite membranes: influence of different sizes and types of nanoparticles on antifouling and performance. Desalination 292:19–29CrossRef

35.

Qamar M, Yoon CR, Oh HJ, Lee NH, Park K, Kim DH, Lee KS, Lee WJ, Kim SJ (2008) Preparation and photocatalytic activity of nanotubes obtained from titanium dioxide. Catal Today 131:3–14CrossRef

36.

Evrim C, Hosik P, Hyeongyu C, Heechul C (2011) Carbon nanotube blended polyethersulfone membranes for fouling control in water treatment. Water Res 45:274–282CrossRef

37.

Ariza M, Benavente J (2001) Streaming potential along the surface of polysulfone membranes: a comparative study between two different experimental systems and determination of electrokinetic and adsorption parameters. J Membr Sci 190:119–132CrossRef

38.

Kaminska G, Bohdziewicz J, Calvo JI, Prádanos P, Palacio L, Hernández A (2015) Fabrication and characterization of polyethersulfone nanocomposite membranes for the removal of endocrine disrupting micropollutants from wastewater. Mechanisms and performance. J Membr Sci 493:66–79CrossRef

39.

Juang L-C, Lee C-K, Wang C-C, Hung S-H, Lyu MD (2008) Adsorptive removal of acid red 1 from aqueous solution with surfactant modified titanate nanotubes. Environ Eng Sci 25:519–528CrossRef

40.

Vatanpour V, Madaeni SS, Moradian R, Zinadini S, Astinc B (2012) Novel antifouling nanofiltration polyethersulfone membrane fabricated from embedding TiO₂ coated multiwalled carbon nanotubes. Sep Purif Technol 90:69–82CrossRef

41.

Zonghua W, Hairong Y, Jianfei X, Feifei Z, Feng L, Yanzhi X, Yanhui L (2012) Novel GO-blended PVDF ultrafiltration membranes. Desalination 299:50–54CrossRef

42.

Arthanareeswaran G, Starov VM (2011) Effect of solvents on the performance of polyethersulfone ultrafiltration membranes: investigation of metal ion separations. Desalination 267:57–63CrossRef

43.

Manying Z, Robert WF, Kaisong Z (2014) Biogenic silver nanocomposite polyethersulfone UF membranes with antifouling properties. J Membr Sci 471:274–284CrossRef

44.

WHO (World Health Organisation) (1993) Guidelines for drinking water quality. Recommendations, vol 1. 2nd edn. WHO, Geneva, p 130

45.

Bruggen BVD, Vandecasteele C, Gestel TV, Doyen W, Leysen R (2003) A review of pressure-driven membrane processes in wastewater treatment and drinking water production. Environ Prog 22:46–56CrossRef

46.

Lau WJ, Ismail AF (2010) Application of response surface methodology in PES/SPEEK blend NF membrane for dyeing solution treatment. Membr Water Treat 1:49–60CrossRef

47.

Abid MF, Zablouk MA, Abid-Alameer MA (2012) Experimental study of dye removal from industrial wastewater by membrane technologies of reverse osmosis and nanofiltration Iranian. J Environ Health Sci Eng 9:1–9CrossRef

48.

Shaban M, Ashraf AM, Abukhadra MR (2018) TiO₂ nanoribbons /carbon nanotubes composite with enhanced photocatalytic activity; fabrication, characterization, and application. Sci Rep 8:781PubMedPubMedCentralCrossRef

49.

Shaban M, Mustafa M, El Sayed AM (2016) Structural, optical, and photocatalytic properties of the spray deposited nanoporous CdS thin films; the influence of copper doping, annealing, and deposition parameters. Mater Sci Semicond Process 56:329–343CrossRef

50.

Ahmad AL, Harris WA, Syafile, Seng OB (2002) Removal of dye from wastewater of textile industry using membrane technology. J Teknol 36:31–44

51.

Macedonio F, Drioli E (2010) Membrane engineering progresses in desalination and water reuse. Membr Water Treat 1:75–81CrossRef

52.

Kilduff JE, Mattaraj S, Pieracci JP, Belfort G (2000) Photochemical modification of poly(ether sulfone) and sulfonated poly(sulfone) nanofiltration membranes for control of fouling by natural organic matter. Desalination 132:133–142CrossRef

Titel: Water desalination and dyes separation from industrial wastewater by PES/TiO2NTs mixed matrix membranes
verfasst von: M. Shaban
H. AbdAllah
L. Said
Ashour M. Ahmed
Publikationsdatum: 01.08.2019
Verlag: Springer Netherlands
Erschienen in: Journal of Polymer Research / Ausgabe 8/2019
Print ISSN: 1022-9760
Elektronische ISSN: 1572-8935
DOI: https://doi.org/10.1007/s10965-019-1831-4

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