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Membranes 2020, 10, 221 62 of 72 122. Pelletier, S.; Serre, É.; Mikhaylin, S.; Bazinet, L. Optimization of cranberry juice deacidification by electrodialysis with bipolar membrane: Impact of pulsed electric field conditions. Sep. Purif. Technol. 2017, 186, 106–116. [CrossRef] 123. Shen,X.;Chen,X.Membrane-freeelectrodeionizationusingphosphonicacidresinfornickelcontaining wastewater purification. Sep. Purif. Technol. 2019, 223, 88–95. [CrossRef] 124. Dermentzis, K. Removal of nickel from electroplating rinse waters using electrostatic shielding electrodialysis/electrodeionization. J. Hazard. Mater. 2010, 173, 647–652. [CrossRef] 125. Jafary,T.;Al-Mamun,A.;Alhimali,H.;Baawain,M.S.;Rahman,M.S.;Rahman,S.;Dhar,B.R.;Aghbashlo,M.; Tabatabaei, M. Enhanced power generation and desalination rate in a novel quadruple microbial desalination cell with a single desalination chamber. Renew. Sustain. Energy Rev. 2020, 127, 109855. [CrossRef] 126. Prifti,H.;Parasuraman,A.;Winardi,S.;Lim,T.M.;Skyllas-Kazacos,M.MembranesforRedoxFlowBattery Applications. Membranes 2012, 2, 275–306. [CrossRef] [PubMed] 127. Audinos,R.Ion-Exchangemembraneprocessesforcleanindustrialchemistry.Chem.Eng.Technol.1997,20, 247–258. [CrossRef] 128. Handojo, L.; Wardani, A.K.; Regina, D.; Bella, C.; Kresnowati, M.T.A.P.; Wenten, I.G. Electro-membrane processes for organic acid recovery. RSC Adv. 2019, 9, 7854–7869. [CrossRef] 129. Zhang,K.;Wang,M.;Gao,C.Tartaricacidproductionbyionexchangeresin-fillingelectrometathesisandits process economics. J. Membr. Sci. 2011, 366, 266–271. [CrossRef] 130. Firdaous,L.;Malériat,J.-P.;Schlumpf,J.-P.;Quéméneur,F.Transferofmonovalentanddivalentcationsin salt solutions by electrodialysis. Sep. Sci. Technol. 2007, 42, 931–948. [CrossRef] 131. Xia,Q.;Guo,H.;Ye,Y.;Yu,S.;Li,L.;Li,Q.;Zhang,R.Studyonthefoulingmechanismandcleaningmethod in the treatment of polymer flooding produced water with ion exchange membranes. RSC Adv. 2018, 8, 29947–29957. [CrossRef] 132. Sosa-Fernandez,P.A.;Post,J.W.;Bruning,H.;Leermakers,F.A.M.;Rijnaarts,H.H.M.Electrodialysis-based desalination and reuse of sea and brackish polymer-flooding produced water. Desalination 2018, 447, 120–132. [CrossRef] 133. Pérez,A.;Andrés,L.J.;Alvarez,R.;Coca,J.;Hill,C.G.,Jr.Electrodialysisofwheypermeatesandretentates obtained by ultrafiltration. J. Food Process Eng. 1994, 17, 177–190. [CrossRef] 134. Oren,Y.;Litan,A.Stateofthesolution-membraneinterfaceduringiontransportacrossanion-exchange membrane. J. Phys. Chem. 1974, 78, 1805–1811. [CrossRef] 135. Nikonenko,V.V.;Zabolotskii,V.I.;Gnusin,N.P.Effectofstationaryexternalelectric-fieldsonion-exchange membrane selectivity. Sov. Electrochem. 1980, 16, 472–479. 136. Sata,T.;Sata,T.;Yang,W.Studiesoncation-exchangemembraneshavingpermselectivitybetweencationsin electrodialysis. J. Membr. Sci. 2002, 206, 31–60. [CrossRef] 137. Masson, F.-A.; Mikhaylin, S.; Bazinet, L. Production of calcium-and magnesium-enriched caseins and caseinates by an ecofriendly technology. J. Dairy Sci. 2018, 101, 7002–7012. [CrossRef] 138. Gonzalez-Vogel,A.;Rojas,O.J.Exploitingelectroconvectivevorticesinelectrodialysiswithhigh-frequency asymmetric bipolar pulses for desalination in overlimiting current regimes. Desalination 2020, 474, 114190. [CrossRef] 139. Gurreri, L.; Cipollina, A.; Tamburini, A.; Micale, G. Electrodialysis for wastewater treatment—Part I: Fundamentals and municipal effluents. In Current Trends and Future Developments on (Bio-) Membranes; Elsevier: Amsterdam, The Netherlands, 2020; pp. 141–192. ISBN 978-0-12-816823-3. 140. Alhéritière,C.;Ernst,W.R.;Davis,T.A.Metathesisofmagnesiumandsodiumsaltsystemsbyelectrodialysis. Desalination 1998, 115, 189–198. [CrossRef] 141. Thampy,S.K.;Joshi,B.S.;Govindan,K.P.Preparationofpotassiumcarbonatebyelectrodialysistechnique. Indian J. Technol. 1985, 23, 454–457. 142. Ochoa,G.J.R.;Santa-Olalla,G.J.;deDiego,Z.A.;Martin,R.J.L.Isolationandpurificationofiminodiacetic acid from its sodium salt by electrodialysis. J. Appl. Electrochem. 1993, 23, 56–59. [CrossRef] 143. Jaroszek, H.; Lis, A.; Dydo, P. Transport of impurities and water during potassium nitrate synthesis by electrodialysis metathesis. Sep. Purif. Technol. 2016, 158, 87–93. [CrossRef] 144. Feng, J.; Wang, Q.; Li, N.; Sun, Y.; Ma, Z.; Xu, D.; Gao, J.; Wang, J.; Wang, L.; Gao, X. Techno-economic evaluation of preparing high-valued TPAOH from its low-cost bromide via electrodialysis metathesis (EDM). Sep. Purif. Technol. 2020, 237, 116371. [CrossRef]PDF Image | Electrodialytic Processes
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