废催化剂作为可充电电池生产原料的利用:有机酸浸出时间、类型和浓度的影响

IF 2.4 Q3 ENERGY & FUELS

International Journal of Renewable Energy Development-IJRED Pub Date : 2023-02-24 DOI:10.14710/ijred.2023.51353

Tabita Kristina Mora Ayu Panggabean, R. F. Susanti, W. Astuti, H. T. Petrus, A. P. Kristijarti, K. C. Wanta

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引用次数: 0

摘要

本研究考察了废催化剂作为可充电电池原料的潜在用途。废催化剂Ni/γ-Al2O3仍含有较高的镍。这表明了将废催化剂进行浸出和纯化以合成镍基化合物的潜在用途，从而可以应用于可充电电池阴极。在本研究中，废催化剂浸出工艺采用了四种有机酸:柠檬酸、乳酸、草酸和乙酸。在常压和室温条件下对废催化剂进行了浸出。有机酸浓度也在0.1、0.5、1和2 m处变化。浸出过程持续240分钟，在30、60、120、180和240分钟定期取样。实验结果表明，当柠檬酸用量为2M时，浸出Ni (II)和Al (III)离子达到最大，浸出时间为240 min。该条件可成功浸出357.8 ppm的Ni (II)和1975.4 ppm的Al (III)离子。有机酸，特别是柠檬酸，具有很好的开发潜力。柠檬酸作为溶剂，具有浸出金属离子的能力，回收率高。此外，与无机酸相比，该酸被归类为生态友好型绿色溶剂。因此，浸出过程可以在不损害环境的情况下进行。

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Utilization of the spent catalyst as a raw material for rechargeable battery production: The effect of leaching time, type, and concentration of organic acids

This study examines the potential use of the spent catalyst as a raw material for rechargeable batteries. The spent catalyst Ni/γ-Al2O3 still contains relatively high amounts of nickel. This indicates the potential use of the spent catalyst to be leached and purified for synthesizing nickel-based compounds so that it can be applied to rechargeable battery cathodes. In this study, the spent catalyst leaching process employed four types of organic acids: citric acid, lactic acid, oxalic acid, and acetic acid. The spent catalyst was leached under atmospheric conditions and room temperature. Organic acid concentrations were also varied at 0.1, 0.5, 1, and 2 M. The leaching process took place for 240 minutes, where sampling was conducted periodically at 30, 60, 120, 180, and 240 minutes. Experimental results showed that Ni (II) and Al (III) ions were successfully leached to the maximum when using 2M citric acids at a leaching time of 240 minutes. The conditions succeeded in leaching Ni (II) and Al (III) ions of 357.8 and 1,975.4 ppm, respectively. Organic acid, notably citric acid, has excellent potential for further development. Citric acid, as a solvent, has the ability to leach metal ions with high recovery. In addition, this acid is categorized as an eco-friendly and green solvent compared to inorganic acid. Thus, the leaching process can take place without harming the environment.

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来源期刊

International Journal of Renewable Energy Development-IJRED Multiple-

CiteScore

4.50

自引率

16.00%

发文量

审稿时长

8 weeks