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Short Review of Multichannel Membrane Capacitive Deionization: Principle, Current Status, and Future Prospect

Nayeong Kim, Jiho Lee, Seonghwan Kim, Sung Pil Hong, Changha Lee, Jeyong Yoon, Choonsoo Kim

2020Applied Sciences51 citationsDOIOpen Access PDF

Abstract

Capacitive deionization (CDI) has gained a lot of attention as a promising water desalination technology. Among several CDI architectures, multichannel membrane CDI (MC-MCDI) has recently emerged as one of the most innovative systems to enhance the ion removal capacity. The principal feature of MC-MCDI is the independently controllable electrode channels, providing a favorable environment for the electrodes and enhancing the desalination performance. Furthermore, MC-MCDI has been studied in various operational modes, such as concentration gradient, reverse voltage discharging for semi-continuous process, and increase of mass transfer. Furthermore, the system configuration of MC-MCDI has been benchmarked for the extension of the operation voltage and sustainable desalination. Given the increasing interest in MC-MCDI, a comprehensive review is necessary to provide recent research efforts and prospects for further development of MC-MCDI. Therefore, this review actively addresses the major principle and operational features of MC-MCDI along with conventional CDI for a better understanding of the MC-MCDI system. In addition, the innovative applications of MC-MCDI and their notable improvements are also discussed. Finally, this review briefly mentions the major challenges of MC-MCDI as well as proposes future research directions for further development of MC-MCDI as scientific and industrial desalination technologies.

Topics & Concepts

Capacitive deionizationDesalinationMaterials scienceComputer scienceNanotechnologyProcess engineeringEnvironmental scienceSystems engineeringEngineeringMembraneChemistryBiochemistryMembrane-based Ion Separation TechniquesMembrane Separation TechnologiesAdvancements in Battery Materials