Membrane Separations in Aquatic Systems

Abstract

Environmental Engineering ScienceVol. 19, No. 6 IntroductionMembrane Separations in Aquatic SystemsMenachem Elimelech and Mark R. WiesnerMenachem ElimelechSearch for more papers by this author and Mark R. WiesnerSearch for more papers by this authorPublished Online:6 Jul 2004https://doi.org/10.1089/109287502320963346AboutSectionsPDF/EPUB Permissions & CitationsPermissionsDownload CitationsTrack CitationsAdd to favorites Back To Publication ShareShare onFacebookTwitterLinked InRedditEmail "Membrane Separations in Aquatic Systems." , 19(6), p. 341FiguresReferencesRelatedDetailsCited byEffect of branching in zwitterionic polymer brushes grafted from PES UF membrane surfaces via AGET-ATR(c)PJournal of Membrane Science, Vol. 672A study of inline chemical coagulation/precipitation-ceramic microfiltration and nanofiltration for reverse osmosis concentrate minimization and reuse in the textile industry5 October 2021 | Water Science and Technology, Vol. 84, No. 9Fabrication and characterization of high flux poly(vinylidene fluoride) electrospun nanofibrous membrane using amphiphilic polyethylene‐block‐poly(ethylene glycol) copolymer10 December 2020 | Journal of Applied Polymer Science, Vol. 138, No. 17Geothermal direct contact membrane distillation system for purifying brackish waterDesalination, Vol. 500Operating parameters optimization of combined UF/NF dual-membrane process for brackish water treatment and its application performance in municipal drinking water treatment plantJournal of Water Process Engineering, Vol. 38Recent Developments and Future Challenges of Hydrogels as Draw Solutes in Forward Osmosis Process3 March 2020 | Water, Vol. 12, No. 3Hierarchical fibrous microfiltration membranes by self-assembling DBS nanofibrils in solution-blown nanofibers1 January 2018 | Soft Matter, Vol. 14, No. 44A Novel Polyvinylidene Fluoride Tree-Like Nanofiber Membrane for Microfiltration19 August 2016 | Nanomaterials, Vol. 6, No. 8The effect of suspended matter concentration on the coagulation–flocculation and decantation process for low brackish water C (NaCl) = 3 g/L24 April 2015 | Desalination and Water Treatment, Vol. 57, No. 13Performance of reverse osmosis (RO) for water recovery from permeates of membrane bio-reactor (MBR)2 August 2013 | Desalination and Water Treatment, Vol. 52, No. 4-6Interfacially synthesized chlorine-resistant polyimide thin film composite (TFC) reverse osmosis (RO) membranesDesalination, Vol. 309Fouling in reverse osmosis (RO) membrane in water recovery from secondary effluent: a review25 February 2012 | Reviews in Environmental Science and Bio/Technology, Vol. 11, No. 2Influence of electrospun fiber size on the separation efficiency of thin film nanofiltration composite membraneJournal of Membrane Science, Vol. 392-393Characterization of bacterial population associated with a brackish water desalination membraneDesalination, Vol. 269, No. 1-3Using nanocomposite materials technology to understand and control reverse osmosis membrane compactionDesalination, Vol. 261, No. 3Modeling the effects of fouling on full-scale reverse osmosis processesJournal of Membrane Science, Vol. 314, No. 1-2Cake-Enhanced Concentration Polarization: A New Fouling Mechanism for Salt-Rejecting Membranes6 November 2003 | Environmental Science & Technology, Vol. 37, No. 24 Volume 19Issue 6Nov 2002 To cite this article:Menachem Elimelech and Mark R. Wiesner.Membrane Separations in Aquatic Systems.Environmental Engineering Science.Nov 2002.341-341.http://doi.org/10.1089/109287502320963346Published in Volume: 19 Issue 6: July 6, 2004PDF download