纳米过滤陶瓷膜是海水淡化和锂回收的双管齐下的可行方法

IF 4.4 4区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES
Chin Ho Kirk, Chiang Yon Douglas Chong, Xingyang Wang, Jianguo Sun, Qi Zhao, John Wang
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引用次数: 0

摘要

陶瓷膜正在成为水处理分离技术的中心。其中,陶瓷纳滤膜处于膜技术的最前沿。使用陶瓷纳滤膜进行海水淡化是增加全球水供应和解决水资源短缺问题的一个潜在应用。然而,虽然高昂的制造成本对其大规模应用构成了挑战,但高价值分离应用有助于抵消总体成本。在这方面,陶瓷纳滤膜也可作为从废海水盐水中提取高价值锂的可行选择。为了确定纳滤陶瓷膜在海水淡化和锂回收方面的潜力,必须彻底评估当前各种操作参数下的盐排斥效率。具体来说,唐南排斥、立体排斥、ZETA 电位和盐浓度之间的相互作用在决定盐排斥效率方面起着重要作用。随后提出了几种策略,以指导陶瓷纳滤膜在海水淡化和锂回收方面的潜在实际应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Nanofiltration Ceramic Membranes as a Feasible Two-Pronged Approach toward Desalination and Lithium Recovery

Nanofiltration Ceramic Membranes as a Feasible Two-Pronged Approach toward Desalination and Lithium Recovery

Nanofiltration Ceramic Membranes as a Feasible Two-Pronged Approach toward Desalination and Lithium Recovery

Ceramic membranes are taking center stage for separation technologies in water treatment. Among them, ceramic nanofiltration membranes are at the forefront of membrane technologies. The desalination of seawater using ceramic nanofiltration membranes is a potential application toward increasing the global water supply and tackling water scarcity. However, while the high fabrication cost poses a challenge to their large-scale applications, high-value separation applications can help to offset the overall cost. In this regard, ceramic nanofiltration membranes can also be explored as a viable option for high-value lithium extraction from the waste seawater brine. In order to determine the potential of nanofiltration ceramic membranes for desalination and lithium recovery from seawater, the current efficiency of salt rejection across various operation parameters must be thoroughly evaluated. Specifically, the interactions between the Donnan exclusion, steric exclusion, zeta potential, and salt concentration play an important role in determining the salt rejection efficiency. Several strategies are then proposed to guide ceramic nanofiltration membranes toward potentially practical applications regarding desalination and lithium recovery.

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来源期刊
Global Challenges
Global Challenges MULTIDISCIPLINARY SCIENCES-
CiteScore
8.70
自引率
0.00%
发文量
79
审稿时长
16 weeks
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