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Bio-inspired design of next-generation ultrapermeable membrane systems

Engineering and Technology

Bio-inspired design of next-generation ultrapermeable membrane systems

J. Luo, M. Li, et al.

A groundbreaking study by Jiu Luo, Mingheng Li, and Yi Heng reveals a revolutionary membrane module design that enhances desalination efficiency, achieving an impressive 338% increase in water flux while reducing energy consumption by 18%. This innovation addresses major challenges in water scarcity and could transform future desalination technologies.... show more
Abstract
Ultrapermeable membranes (UPMs) have the potential of improving water production efficiency. However, operating at high water fluxes will intensify concentration polarization and membrane fouling. Inspired by the V-formation of birds in nature we propose a transformative membrane module that enables a doubled mass transfer coefficient with a moderately increased friction loss coefficient. Moreover, we present a practical technological pathway for the UPM systems to achieve 338% improvement of average water flux and 18% energy savings relative to state-of-the-art seawater desalination plants. The work makes it practical to operate at a high average water flux of 84 L m−2 h−1 with a controlled concentration polarization for the UPM systems. It breaks through the module development bottlenecks for the next-generation UPM systems and has enormous potential application for alleviating water scarcity crisis in the coming decades.
Publisher
npj Clean Water
Published On
Jan 20, 2024
Authors
Jiu Luo, Mingheng Li, Yi Heng
DOI
https://doi.org/10.1038/s41545-024-00297-7
Tags
ultrapermeable membranes
desalination
mass transfer coefficient
concentration polarization
energy savings
water flux
membrane fouling

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