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2023 | OriginalPaper | Buchkapitel

1. Introduction and Basic Principle of Nanofiltration Membrane Process

verfasst von : Vemula Madhavi, Thotakura Ramesh

Erschienen in: Nanofiltration Membrane for Water Purification

Verlag: Springer Nature Singapore

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Abstract

One of the demanding challenges of the twenty-first century is to improve the decontamination of the water by sustainable and economically adaptable technologies. Traditional water treatment technologies, though efficient, give rise to several problems and not adaptable that obstructs the development processes. The application of membrane technology in wastewater treatment has been gaining great interest and has shown potential results for the elimination of toxic pollutants. Nanofiltration (NF) in membrane technologies is relatively recent development and is explored due to stringent water quality standards. NF has outplaced reverse osmosis in most of the applications due to high flux rates with better pollutant rejection. This chapter incurs to address the principles and concepts of NF membrane technology for water treatment including fundamental mechanism and fouling in the process. Besides, a general outline was made on the different membrane fouling types and mitigation strategies in NF process and future perspectives.

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Nächstes Kapitel Synthesis and Characterization of Nanofiltration Membrane
Literatur
Abdelrasoul A, Doan H, Lohi A (2013) Fouling in membrane filtration and remediation methods. In: Advances in sustainable energy and environment oriented numerical modelling. InTech Open, London, UK
Ahmad A et al (2015) Effect of silica on the properties of cellulose acetate/polyethylene glycol membranes for reverse osmosis. Desalination 355:1–10
Alshahrani AA, Alsohaimi IH, Alshehri S, Alawady AR, El-Aassar MR, Nghiem LD, in het Panhuis M (2020) Nanofiltration membranes prepared from pristine and functionalised multiwall carbon nanotubes/biopolymer composites for water treatment applications. J Mater Res Technol 9(4):9080–9092. https://​doi.​org/​10.​1016/​j.​jmrt.​2020.​06.​055
Bayat A, Mahdavi HR, Kazemimoghaddam M, Mohammadi T (2016) Preparation and characterisation of γ-alumina ceramic ultrafiltration membranes for pre-treatment of oily wastewater. Desalin Water Treat 57:24322–24332 [CrossRef]
Broeckmann A, Wintgens T, Schätfer AI (2005) Removal and fouling mechanisms in nanofiltration of polysaccharide solutions. Desalination 178:149–159
Cheng X, Ding S, Guo J, Zhang C, Guo Z, Shao L (2017) In-situ interfacial formation of TiO2/polypyrrole selective layer for improving the separation efficiency towards molecular separation. J Membr Sci 536:19–27CrossRef
Cheryan M (1998) Ultrafiltration and microfiltration handbook. Technomic Publ, Chicago
Du X, Shi Y, Jegatheesan V, Haq IU (2020) A review on the mechanism, impacts and control methods of membrane fouling in MBR system. Membranes 10:24 [CrossRef] [PubMed]
Ebrahim S, Bou-Hamed S, Abdel-Jawad M, Burney N (1997) Microfiltration system as a pretreatment for RO units: technical and economic assessment. Desalination 109:165–175CrossRef
Ehsani A, Pakizeh M (2016) Synthesis, characterization and gas permeation study of ZIF11/Pebax 2533 mixed matrix membranes. J Taiwan Inst Chem Eng 66:414–423CrossRef
Fane G, Beatson P, Li H (2000) Membrane fouling and its control in environmental applications. Water Sci Technol 41(10–11):303–308CrossRef
Fang J, Deng B (2014) Rejection and modeling of arsenate by nanofiltration: contributions of convection, diffusion and electromigration to arsenic transport. J Membr Sci 453:42–51CrossRef
Goh PS, Lau WJ, Othman MHD, Ismail AF (2018) Membrane fouling in desalination and its mitigation strategies. Desalination 425:130–155 [CrossRef]
Haddeland I et al (2014) Global water resources affected by human interventions and climate change. Proc Natl Acad Sci USA 111:3251–3256ADSCrossRef
Halakoo E, Feng X (2020) Layer-by-layer assembly of polyethyleneimine/graphene oxide membranes for desalination of high-salinity water via pervaporation. Sep Purif Technol 234:116077 [CrossRef]
Han G, de Wit JS, Chung TS (2015) Water reclamation from emulsified oily wastewater via effective forward osmosis hollow fiber membranes under the PRO mode. Water Res 81:54–63 [CrossRef] [PubMed]
Hilal N, Al-Zoubi H, Mohammad AW, Darwish NA (2005) Nanofiltration of highly concentrated salt solutions up to seawater salinity. Desalination 184(May):315–326CrossRef
Jahangiri F, Asadollahi M, Mousavi SA, Farhadi F (2018) Improvement of performance of polyamide reverse osmosis membranes using dielectric barrier discharge plasma treatment as a novel surface modification method. Polym Eng Sci. https://​doi.​org/​10.​1002/​pen.​25025
Jhaveri JH, Jhaveri ZVP, Murthy V (2016) A comprehensive review on anti-fouling nanocomposite membranes for pressure driven membrane separation processes. Desalination 379:137–154CrossRef
Lee J, Oh BS, Kim S, Kim SJ, Hong SK, Kim IS (2010) Fate of Bacillus sp. and Pseudomonas sp. isolated from seawater during chlorination and microfiltration as pretreatments of a desalination plant. J Membr Sci 349:208–216 [CrossRef]
Li X, Sottoc A, Li JS, Bruggen BV (2017) Progress and perspectives for synthesis of sustainable antifouling composite membranes containing in situ generated nanoparticles. J Membr Sci 524:502–528CrossRef
Lin Y, Wu H-C, Shen Q, Zhang L, Guan K, Shintani T, Tung K-L, Yoshioka T, Matsuyama H (2020) Custom-tailoring metal-organic framework in thin-film nanocomposite nanofiltration membrane with enhanced internal polarity and amplified surface crosslinking for elevated separation property. Desalination 493:114649–. https://​doi.​org/​10.​1016/​j.​desal.​2020.​114649
Lu X et al (2016) Amphiphobic PVDF composite membranes for anti-fouling direct contact membrane distillation. J Membr Sci 505:61–69CrossRef
Macoun RG (1998) The mechanisms of ionic rejection in nanofiltration. Chemical Engineering, Ph.D. thesis, University of New South Wales, Sydney, Australia
Mekonnen MM, Hoekstra AY (2016) Four billion people facing severe water scarcity. Sci Adv 2:e1500323ADSCrossRef
Monnot M, Laborie S, Cabassud C (2016) Granular activated carbon filtration plus ultrafiltration as a pretreatment to seawater desalination lines: impact on water quality and UF fouling. Desalination 383:1–11 [CrossRef]
Shafiq M et al (2018) Cellulaose acetate based thin film nanocomposite reverse osmosis membrane incorporated with TiO2 nanoparticles for improved performance. Carbohydr Polym 186:367–376CrossRef
Shahrin S et al (2019) Chapter 1-Development of adsorptive ultrafiltration membranes for heavy metal removal. In: Lau W-J et al (eds) Advanced nanomaterials for membrane synthesis and its applications. Elsevier, pp 1–22
Shao L, Cheng X, Wang Z, Ma J, Guo Z (2014) Tuning the performance of polypyrrole based solvent-resistant composite nanofiltration membranes by optimizing polymerization conditions and incorporating graphene oxide. J Membr Sci 452:82–89CrossRef
Sidek NM, Fauziah S, Draman S, Abdullah I (2015) Prediction of nanofiltration membrane performance? Analysis of ion transport mechanisms. Asian Res Publ Netw 10(1):337–342
Stock N, Biswas S (2012) Synthesis of metal-organic frameworks (MOFs): routes to various MOF topologies, morphologies, and composites. Chem Rev 112:933–969CrossRef
Strathmann H (1990) Synthetic membranes and their preparation. In: Porter MC (ed) Handbook of industrial membrane technology. Noyes Publications, New Jersey
Su B, Wu T, Li Z, Cong X, Gao X, Gao C (2015) Pilot study of seawater nanofiltration softening technology based on integrated membrane system. Desalination 368:193–201CrossRef
Susanto H, Ulbricht M (2005) Influence of ultrafiltration membrane characteristics on adoptive fouling with dextrans. J Membr Sci 266:132–142CrossRef
Szymczyk A, Labbez C, Fievet P, Vidonne A, Foissy A, Pagetti J (2003) Contribution of convection, diffusion and migration to electrolyte transport through nanofiltration membranes. Adv Colloid Interface Sci 103(1):77–94CrossRef
Wei X, Wang Z, Zhang Z, Wang J, Wang S (2010) Surface modification of commercial aromatic polyamide reverse osmosis membranes by graft polymerization of 3-allyl-5,5-dimethylhydantoin. J Membr Sci 351:222–233 [CrossRef]
Yang Z, Zhou Y, Feng ZY, Rui XB, Zhang T, Zhang Z (2019) A review on reverse osmosis and nanofiltration membranes for water purification. Polymers 11:1–22CrossRef
Yin J, Deng BL (2015) Polymer-matrix nanocomposite membranes for water treatment. J Membr Sci 479:256–275CrossRef
Zhan Y, He S, Wan X, Zhao S, Bai Y (2018) Thermally and chemically stable poly(arylene ether nitrile)/halloysite nanotubes intercalated graphene oxide nanofibrous composite membranes for highly efficient oil/water emulsion separation in harsh environment. J Membr Sci 567:76–88 [CrossRef]
Zhang Y, Wang N, Ji S, Zhang R, Zhao C, Li J-R (2015) Metal–organic framework/poly (vinyl alcohol) nanohybrid membrane for the pervaporation of toluene/n-heptane mixtures. J Membr Sci 489:144–152CrossRef
Zhang, Zhang Y, Pan G, Xu J, Yan H, Liu Y (2017) In situ formation of copper nanoparticles in carboxylated chitosan layer: preparation and characterization of surface modified TFC membrane with protein fouling resistance and long-lasting antibacterial properties. Sep Purif Technol 176:164–172. https://​doi.​org/​10.​1016/​j.​seppur.​2016.​12.​006
Zhongyi S (2016) As featured in: purification: strategies and mechanisms. Chem Soc Rev 45:5888–5924 [CrossRef]
Zhu L, Yu H, Zhang H, Shen J, Xue L, Gao C, van der Bruggen B (2015) Mixed matrix membranes containing MIL-53(Al) for potential application in organic solvent nanofiltration. RSC Adv 5:73068–73076ADSCrossRef
Metadaten
Titel
Introduction and Basic Principle of Nanofiltration Membrane Process
verfasst von
Vemula Madhavi
Thotakura Ramesh
Copyright-Jahr
2023
Verlag
Springer Nature Singapore
Buch
Nanofiltration Membrane for Water Purification

Print ISBN: 978-981-19-5314-9

Electronic ISBN: 978-981-19-5315-6

Copyright-Jahr: 2023

DOI
https://doi.org/10.1007/978-981-19-5315-6_1