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复分解电渗析绿色高效制备醋酸锂

Green and efficient synthesis of lithium acetate by electrodialysis metathesis
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摘要 醋酸锂在锂离子电池、生物制药和陶瓷玻璃等生产制备中有广泛应用,但传统醋酸锂制备方法会带来严重的环境污染问题.因此,开发一种环保、高效的醋酸锂绿色生产工艺显得尤为重要.本研究以初级锂盐——硫酸锂为原料,采用复分解电渗析法一步制备醋酸锂.研究了初始醋酸钠浓度、操作电压、初始硫酸锂浓度对复分解电渗析性能的影响,并对醋酸锂产品进行评价与经济性分析.实验结果表明,增加初始醋酸钠浓度可以提高醋酸锂产品浓度;提高操作电压可以缩短反应时间,但醋酸锂产品浓度没有明显变化;同比例提高初始的硫酸锂与醋酸钠浓度,可以显著提升醋酸锂产品的最终浓度,提升系统的产能.在操作电压为20 V,初始醋酸钠浓度为0.6 mol/L,初始硫酸锂浓度为0.3 mol/L的条件下,制备的醋酸锂的工艺过程成本约为5590元/t CH_(3)COOLi.复分解电渗析工艺具有工艺流程简单、能耗低、环境友好等明显优势,对电驱动膜分离在锂盐的生产制备中具有重要参考意义. Lithium acetate is a commonly utilized ingredient in the fabrication and formulation of lithium-ion batteries,biopharmaceuticals,and ceramic glass,among other applications.Nevertheless,the conventional technique for manufacturing lithium acetate poses significant environmental contamination challenges.Thus,it is crucial to devise an eco-friendly and effective green approach for producing lithium acetate.The one-step electrodialysis metathesis(EDM)process used to produce lithium acetate from the primary lithium salt,lithium sulphate.The study investigated the effects of initial sodium acetate concentration,operating voltage,and initial lithium sulfate concentration on EDM performance.Furthermore,the research assessed the quality of the lithium acetate produced and conducted an economic analysis.The experimental results indicated that increasing the initial concentration of sodium acetate can enhance the concentration of lithium acetate product.Raising the operating voltage can reduce the reaction time,but it did not appear to affect the concentration of lithium acetate product.A significant rise in the ultimate concentration of lithium acetate product and an increase in the system's capacity can be achieved by elevating the initial concentrations of lithium sulfate and sodium acetate concurrently.The cost to produce lithium acetate was roughly 5590 yuan/t CH_(3)COOLi,with an operating voltage of 20 V,0.6 mol/L of sodium acetate and 0.3 mol/L of lithium sulfate.EDM's electrodialysis process provided obvious advantages,including simple process flow,low energy consumption and environmental safety.These benefits played a significant role in the application of electrically driven membrane separation in the manufacturing and preparation of lithium salts.
作者 卫新来 李旭 吴克 王研 WEI Xinai;LI Xu;WU Ke;WANG Yan(School of Biology,Food and Environment,Hefei University,Hefei 230601,China;Anhui Key Laboratory of Sewage Purification and Eco-restoration Materials,Hefei 230088,China)
出处 《膜科学与技术》 CAS CSCD 北大核心 2024年第3期115-123,共9页 Membrane Science and Technology
基金 国家重点研发计划(2020YFC1908601) 合肥学院人才科研基金项目(21-22RC31)。
关键词 醋酸锂 复分解电渗析 绿色生产 lithium acetate electrodialysis metathesis green production
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