Recent Innovations and Patents of Lithium Extraction Techniques from Various Lithium Bearing Solutions

Recent Innovations in Chemical Engineering (Formerly Recent Patents on Chemical Engineering) Pub Date : 2023-08-01 DOI:10.2174/0124055204266229230927035347

Sewar Aljarrah, A. Al-Rawajfeh, Muhammad Kashif Shahid, Qamar Ul Islam

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Abstract

Lithium, with its exceptional properties, such as remarkable redox activity and high specific heat capacity, finds widespread applications in thermonuclear fusion reactors, ceramics, batteries, aerospace, glass, metal additives, and photo-electricity. The growing demand for clean technology, especially electric cars and energy storage, has led to a significant rise in global lithium production. Brines now constitute a major portion of the world's lithium output, driving research in lithium extraction and purification methods. This study examines recent innovative research and patents, including various extraction techniques, sorbents, electrolysis-based approaches, and cost-effective methods. The study identifies gaps and limitations in existing lithium extraction technology and proposes future research areas to advance the field. The bibliographic analysis underscores the importance of further investigation to overcome current obstacles and drive progress in lithium extraction.

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从各种含锂溶液中提取锂的最新创新和专利技术

锂具有显著的氧化还原活性和高比热容等特殊性能，广泛应用于热核聚变反应堆、陶瓷、电池、航空航天、玻璃、金属添加剂和光电领域。对清洁技术，特别是电动汽车和能源储存的需求不断增长，导致全球锂产量大幅上升。卤水目前占全球锂产量的主要部分，推动了锂提取和提纯方法的研究。本研究探讨了近期的创新研究和专利，包括各种萃取技术、吸附剂、基于电解的方法和具有成本效益的方法。研究指出了现有锂萃取技术的差距和局限性，并提出了推动该领域发展的未来研究领域。文献分析强调了进一步研究的重要性，以克服当前的障碍，推动锂萃取技术的进步。

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Recent Innovations in Chemical Engineering (Formerly Recent Patents on Chemical Engineering)

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