| 1 - 2 |
ELECTROMEMBRANE PROCESSES FOR DESALINATION Preface
Kabay N, Bryjak M |
| 3 - 15 |
Application of Capacitive Deionisation in water desalination: A review
AlMarzooqi FA, Al Ghaferi AA, Saadat I, Hilal N |
| 16 - 22 |
Various applications of electrodeionization (EDI) method for water treatment-A short review
Arar O, Yuksel U, Kabay N, Yuksel M |
| 23 - 28 |
Demineralization of geothermal water reverse osmosis (RO) permeate by electrodeionization (EDI) with mixed bed configuration
Arar O, Yuksel U, Kabay N, Yuksel M |
| 29 - 34 |
Electrodialytic separation of boric and hydrochloric acids
Bialek R, Mitko K, Dydo P, Turek M |
| 35 - 42 |
The concept for an ED-RO integrated system for boron removal with simultaneous boron recovery in the form of boric acid
Dydo P, Turek M |
| 43 - 51 |
Electrodeionization of low-concentrated multicomponent Ni2+ -containing solutions using organic-inorganic ion-exchanger
Dzyazko YS, Ponomaryova LN, Rozhdestvenskaya LM, Vasilyuk SL, Belyakov VN |
| 52 - 60 |
Modification of ceramic membranes with inorganic sorbents. Application to electrodialytic recovery of Cr(VI) anions from multicomponent solution
Dzyazko YS, Rudenko AS, Yukhin YM, Palchik AV, Belyakov VN |
| 61 - 69 |
Seawater predesalination with electrodialysis
Galama AH, Saakes M, Bruning H, Rijnaarts HHM, Post JW |
| 70 - 74 |
TiO2 sol-gel spray method for carbon electrode fabrication to enhance desalination efficiency of capacitive deionization
Kim C, Lee J, Kim S, Yoon J |
| 75 - 84 |
Modeling the transport of sulfuric acid and its sulfates (MgSO4, ZnSO4, Na2SO4) through an anion-exchange membrane
Koter S, Kultys M, Gilewicz-Lukasik B, Koter I |
| 85 - 106 |
Desalination at overlimiting currents: State-of-the-art and perspectives
Nikonenko VV, Kovalenko AV, Urtenov MK, Pismenskaya ND, Han J, Sistat P, Pourcelly G |
| 107 - 117 |
Concentration of NaCl from seawater reverse osmosis brines for the chlor-alkali industry by electrodialysis
Reig M, Casas S, Aladjem C, Valderrama C, Gibert O, Valero F, Centeno CM, Larrotcha E, Cortina JL |
| 118 - 125 |
Techno-economic analysis of resource recovery of glyphosate liquor by membrane technology
Shen JN, Huang J, Ruan HM, Wang JD, Van der Bruggen B |
| 126 - 138 |
Development of a computer simulation program of feed-and-bleed ion-exchange membrane electrodialysis for saline water desalination
Tanaka Y |
| 139 - 147 |
Residence time distribution of the electrodialyzer under electric field conditions
Turek M, Mitko K |
| 148 - 155 |
Water and chemical savings in cooling towers by using membrane capacitive deionization
van Limpt B, van der Wal A |
| 156 - 174 |
Preparation of ion-exchange materials and membranes
Vogel C, Meier-Haack J |
| 175 - 182 |
Ion-exchange membrane processes for Br- and BrO3- ion removal from water and for recovery of salt from waste solution
Wisniewski JA, Kabsch-Korbutowicz M, Lakomska S |
| 183 - 203 |
Heterogeneous bipolar membranes and their application in electrodialysis
Zabolotskii V, Sheldeshov N, Melnikov S |
