用振动台回收印刷电路板(pcb)中的铜

IF 1 4区化学 Q4 CHEMISTRY, MULTIDISCIPLINARY

Journal of The Serbian Chemical Society Pub Date : 2023-01-01 DOI:10.2298/jsc230316056g

Özge Gök, Şen Akar

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引用次数: 0

摘要

近年来，人们越来越关注废旧电子电气设备(WEEE)中金属部件的再利用，废旧电子电气设备是指在生产过程中已经过时、停止工作或出现缺陷的电子电气设备。本研究选择振动台作为重选工具，从轻组分中回收铜。该流程包括粉碎、重量浓缩和原料和产品的物理/化学表征。工艺参数为甲板角度(度)、运动频率(Hz)、洗涤速度(Lpm)、粒径直径。采用Box Behnken设计(BBD)对湿式振动台的性能进行了优化，并确定了其工作参数的理想组合。通过对实验设计的分析，发现甲板角度、运动频率、洗涤水量和粒径的最佳设置分别为2度、50 Hz、12 Lpm和-500+300 mm。这些最优设置位于实验设计的中心点附近，表明实际的最优点可能在设计空间内。

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Recovery of copper from printed circuit boards (PCBS) using shaking table

In recent years, there has been a growing focus on the reuse of metallic components from waste electrical and electronic equipment (WEEE) which refers to electrical and electronic equipment that has become obsolete, stopped working, or developed defects during production. In this research, shaking table was selected as a gravity concentration tool for the recovery of copper from the light components. The flowsheet included comminution, gravimetric concentration and physical/chemical characterization of feed material and products. The process parameters were deck angle (degrees), motion frequency (Hz), wash water rate (Lpm), and particle size diameter. The Box Behnken Design (BBD) was used to optimize the performance of the wet shaking table and to identify the ideal combination of its operating parameters. By analysing the experimental design, it was found that the optimal settings for deck angle, motion frequency, wash water rate, and particle size diameter were 2 degrees, 50 Hz, 12 Lpm, and -500+300 mm, respectively. These optimal settings were located near the central points of the experimental design, suggesting that the actual optimal point could be within the design space.

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来源期刊

Journal of The Serbian Chemical Society 化学-化学综合

CiteScore

1.80

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： The Journal of the Serbian Chemical Society -JSCS (formerly Glasnik Hemijskog društva Beograd) publishes articles original papers that have not been published previously, from the fields of fundamental and applied chemistry: Theoretical Chemistry, Organic Chemistry, Biochemistry and Biotechnology, Food Chemistry, Technology and Engineering, Inorganic Chemistry, Polymers, Analytical Chemistry, Physical Chemistry, Spectroscopy, Electrochemistry, Thermodynamics, Chemical Engineering, Textile Engineering, Materials, Ceramics, Metallurgy, Geochemistry, Environmental Chemistry, History of and Education in Chemistry.