离子交换-吸附法回收水资源中的锂

IF 0.6 4区化学 Q4 CHEMISTRY, MULTIDISCIPLINARY

Journal of the chemical society of pakistan Pub Date : 2021-01-01 DOI:10.52568/000585

Samadiy Murodjon

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引用次数: 8

摘要

由于锂在可充电电池、轻型飞机合金和核聚变等多种应用领域的用量迅速增加，对锂的需求也在迅速增加。预计到2025年，锂需求将在电池应用，特别是电动汽车的推动下增长两倍。为了保证锂的消费不断增长，有必要增加不同资源的锂产量。天然锂资源主要伴生在花岗岩伟晶岩型矿床(锂辉石和花瓣岩矿石)、盐湖卤水、海水和地热水中。其中，盐湖卤水、海水、地热水中的锂资源储量占总储量的70-80%，是提取锂的优良原料。与矿物相比，从水资源中提取锂是有前途的，因为这种水锂回收更丰富，更环保，成本效益更高。从水资源中回收锂的方法有很多。在现有的方法中，吸附法是最有前途的制造方法。因此，对离子交换吸附法在水资源锂回收研究中的重要进展进行了详细的总结，并对未来的新趋势进行了展望。

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Lithium Recovery from Water Resources by Ion Exchange and Sorption Method

Demand to lithium rising swiftly as increasing due to its rapidly increasing dosages diverse applications such as rechargeable batteries, light aircraft alloys, and nuclear fusion. Lithium demand is expected to triple by 2025 driven by battery applications, specifically electric vehicles. To ensure the growing consumption of lithium, it is necessary to increase the production of lithium from different resources. Natural lithium resources mainly associate within granite pegmatite type deposit (spodumene and petalite ores), salt lake brines, seawater, and geothermal water. Among them, the reserves of lithium resources in salt lake brine, seawater, and geothermal water are in 70–80% of the total, which are excellent raw materials for lithium extraction. Compared to the minerals, the extraction of lithium from water resources is promising because this aqueous lithium recovery is more abundant, more environmentally friendly, and cost-effective. There are many ways to recover lithium from water resources. Among existing methods, the adsorption method is more promising on the way of manufacture. Therefore, the important progress on ion-exchange adsorption methods for lithium recovery from water resources searched ways, were summarized in detail, and the new trends in the future were also carried out.

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来源期刊

Journal of the chemical society of pakistan 化学-化学综合

CiteScore

1.30

自引率

14.30%

发文量

审稿时长

3.4 months

期刊介绍： This journal covers different research areas in the field of Chemistry. These include; Analytical Chemistry, Applied Chemistry, Biochemistry, Environmental Chemistry, Industrial Chemistry, Inorganic Chemistry, Organic Chemistry and Physical Chemistry. The journal publishes full length articles and Reviews from researchers in academia in addition to featuring comments. Chemical Research presents short, concise and critical articles offering easy-to-read overviews of basic research and applications in all areas of chemistry.