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Membranes 2020, 10, 221 66 of 72 209. Singh, R. Development of Hybrid Processes for High Purity Water Production. In Emerging Membrane Technology for Sustainable Water Treatment; Elsevier: Amsterdam, The Netherlands, 2016; pp. 327–357. ISBN 978-0-444-63312-5. 210. Atkinson,S.QUAplaysvitalroleinsatisfyingtextileandpetrochemicalplants’waterrequirements.Membr. Technol. 2019, 2019, 7–8. [CrossRef] 211. QUAPureTechnology.FractionalElectrodeionization;QUA:Canonsburg,PA,USA,2014. 212. Lee,H.-J.;Song,J.-H.;Moon,S.-H.Comparisonofelectrodialysisreversal(EDR)andelectrodeionization reversal (EDIR) for water softening. Desalination 2013, 314, 43–49. [CrossRef] 213. Yang, G.; Zhang, Y.; Guan, S. Study on the desalination of high hardness water by electrodeionization reversal. Desalin. Water Treat. 2016, 57, 8127–8138. [CrossRef] 214. Jordan,M.L.;Valentino,L.;Nazyrynbekova,N.;Palakkal,V.M.;Kole,S.;Bhattacharya,D.;Lin,Y.J.;Arges,C.G. Promoting water-splitting in Janus bipolar ion-exchange resin wafers for electrodeionization. Mol. Syst. Des. Eng. 2020. [CrossRef] 215. Dydek,E.V.;Bazant,M.Z.Nonlineardynamicsofionconcentrationpolarizationinporousmedia:Theleaky membrane model. AIChE J. 2013, 59, 3539–3555. [CrossRef] 216. Mani,A.;Bazant,M.Z.Deionizationshocksinmicrostructures.Phys.Rev.E2011,84,061504.[CrossRef] 217. Yaroshchuk, A. Over-limiting currents and deionization “shocks” in current-induced polarization: Local-equilibrium analysis. Adv. Colloid Interface Sci. 2012, 183, 68–81. [CrossRef] 218. Mani, A.; Zangle, T.A.; Santiago, J.G. On the Propagation of Concentration Polarization from Microchannel−Nanochannel Interfaces Part I: Analytical Model and Characteristic Analysis. Langmuir 2009, 25, 3898–3908. [CrossRef] 219. Bazant,M.Z.;Dydek,E.V.;Deng,D.;Mani,A.MethodandApparatusforDesalinationandPurification.U.S. Patent 8,801,910, 12 August 2014. 220. Schlumpberger,S.;Lu,N.B.;Suss,M.E.;Bazant,M.Z.ScalableandContinuousWaterDeionizationbyShock Electrodialysis. Environ. Sci. Technol. Lett. 2015, 2, 367–372. [CrossRef] 221. Alkhadra,M.A.;Gao,T.;Conforti,K.M.;Tian,H.;Bazant,M.Z.Small-scaledesalinationofseawaterbyshock electrodialysis. Desalination 2020, 476, 114219. [CrossRef] 222. Deng,D.;Dydek,E.V.;Han,J.-H.;Schlumpberger,S.;Mani,A.;Zaltzman,B.;Bazant,M.Z.Overlimiting Current and Shock Electrodialysis in Porous Media. Langmuir 2013, 29, 16167–16177. [CrossRef] 223. Deng,D.;Aouad,W.;Braff,W.A.;Schlumpberger,S.;Suss,M.E.;Bazant,M.Z.Waterpurificationbyshock electrodialysis: Deionization, filtration, separation, and disinfection. Desalination 2015, 357, 77–83. [CrossRef] 224. Conforti,K.M.;Bazant,M.Z.Continuousion-selectiveseparationsbyshockelectrodialysis.AIChEJ.2020,66, e16751. [CrossRef] 225. Alkhadra,M.A.;Conforti,K.M.;Gao,T.;Tian,H.;Bazant,M.Z.ContinuousSeparationofRadionuclides from Contaminated Water by Shock Electrodialysis. Environ. Sci. Technol. 2019, acs.est.9b05380. [CrossRef] [PubMed] 226. Dlask,O.;Václavíková,N.Electrodialysiswithultrafiltrationmembranesforpeptideseparation.Chem.Pap. 2018, 72, 261–271. [CrossRef] 227. Sun,L.;Chen,Q.;Lu,H.;Wang,J.;Zhao,J.;Li,P.Electrodialysiswithporousmembraneforbioproduct separation: Technology, features, and progress. Food Res. Int. 2020, 137, 109343. [CrossRef] 228. Galier,S.;Roux-deBalmann,H.Studyofbiomoleculesseparationinanelectrophoreticmembranecontactor. J. Membr. Sci. 2004, 241, 79–87. [CrossRef] 229. Labbé, D.; Araya-Farias, M.; Tremblay, A.; Bazinet, L. Electromigration feasibility of green tea catechins. J. Membr. Sci. 2005, 254, 101–109. [CrossRef] 230. Poulin, J.-F.; Amiot, J.; Bazinet, L. Simultaneous separation of acid and basic bioactive peptides by electrodialysis with ultrafiltration membrane. J. Biotechnol. 2006, 123, 314–328. [CrossRef] 231. Bazinet,L.;Poulin,J.-F.;Amiot,J.EffectofConditioningUltrafiltrationMembranesontheirPerformancesin Electrodialysis with Ultrafiltration Membrane. Sep. Sci. Technol. 2007, 42, 2501–2518. [CrossRef] 232. Bazinet,L.;Amiot,J.;Poulin,J.-F.;Labbe,D.;Tremblay,A.ProcessandSystemforSeparationofOrganic Charged Compounds. U.S. Patent Application 10/591,238, 24 January 2008. 233. Doyen, A.; Beaulieu, L.; Saucier, L.; Pouliot, Y.; Bazinet, L. Impact of Ultrafiltration Membrane Material on Peptide Separation from a Snow Crab Byproduct Hydrolysate by Electrodialysis with Ultrafiltration Membranes. J. Agric. Food Chem. 2011, 59, 1784–1792. [CrossRef]PDF Image | Electrodialytic Processes
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