期刊
WATER RESEARCH
卷 244, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.watres.2023.120510
关键词
Electrically conductive membrane (ECM); Membrane distillation (MD); Zero liquid discharge (ZLD); Inorganic scaling mitigation; Alternating current operation
Membrane distillation (MD) has potential for high salinity treatment and zero liquid discharge (ZLD), but faces challenges in fouling and scaling under high recovery conditions. This study proposes alternating current (AC) operation for electrically conductive membrane distillation (ECMD) to control both cations and anions, increasing water recovery by 27%.
Membrane distillation (MD) shows promise for achieving high salinity treatment and zero liquid discharge (ZLD) compared to conventional water treatment processes due to its unique characteristics, including low energy consumption and high resulting water quality. However, performance degradation due to fouling and scaling under high recovery conditions remains a challenge, particularly considering the need to control both cations and anions for maximum scaling mitigation. Accordingly, in this study, alternating current (AC) operation for electrically conductive membrane distillation (ECMD) is newly proposed, based on its potential for controlling both cations and anions, in contrast to conventional direct current (DC) operation. Systematic experiments and theoretical analysis show that water recovery in ECMD can be increased by 27% through AC operation. The proposed modification and effective AC operation of ECMD increase the practicality of using MD in desalination for a high recovery rate, perhaps even for ZLD.
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