Useful metals recovery from electronic scraps of headphones – A sustainable approach

Waste Management Bulletin Pub Date : 2024-06-01 DOI:10.1016/j.wmb.2024.05.009

M. Ayisha Sidiqua, A. Sheik Farid, Girish Birgoudiar, M. Jaganathan, S.M. Kabilan, E.H. Asad

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Abstract

The utilization of electronic devices has been consistently increasing each year. In the fiscal year 2020–2021, India handled more than 340,000 tonnes of electronic waste, a significant surge from the 69,414 tonnes recorded in 2017–2018. Over the past four years, there has been a remarkable fourfold increase in the collection and processing of e-waste. This project focuses on e-waste generated from headphones, considering their widespread usage globally. Surprisingly, despite their ubiquity, only 15 % of headphones are recycled, with more than 85 % being discarded as waste. To address this issue, hydrometallurgy treatment is employed to extract valuable metals such as copper and iron. Following this treatment, this research successfully obtained copper carbonate and iron oxide as essential elements. The leached solution undergoes analysis using Atomic Absorption Spectroscopy (AAS). Further characterization through X-Ray Diffraction (XRD) of batteries and magnets aids in identifying the crystalline materials. Additionally, a cost-benefit analysis was carried out, revealing a 57 % and a 39 % profit in copper carbonate and iron oxide extraction respectively and this validates the confirmation of circular economy. Finally, a questionnaire survey was conducted with approximately 192 students, revealing that most headset replacements occur roughly once a year, typically within a budget of around Rs. 500–1000. This strongly indicates a high rate of waste disposal.

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从电子耳机废料中回收有用金属--一种可持续的方法

电子设备的利用率每年都在持续增长。在 2020-2021 财年，印度处理了超过 34 万吨的电子垃圾，比 2017-2018 财年的 69414 吨大幅增加。在过去四年中，电子废物的收集和处理量显著增加了四倍。考虑到耳机在全球的广泛使用，本项目重点关注耳机产生的电子垃圾。令人惊讶的是，尽管耳机无处不在，但只有 15% 的耳机被回收利用，超过 85% 的耳机被作为废物丢弃。为了解决这个问题，我们采用了湿法冶金处理技术来提取铜和铁等有价值的金属。经过这种处理，这项研究成功地获得了作为基本元素的碳酸铜和氧化铁。浸出液通过原子吸收光谱（AAS）进行分析。通过对电池和磁铁进行 X 射线衍射 (XRD) 分析，进一步确定了晶体材料的特性。此外，还进行了成本效益分析，结果显示提取碳酸铜和氧化铁的利润分别为 57% 和 39%，这验证了循环经济的有效性。最后，对大约 192 名学生进行了问卷调查，结果显示大多数耳机更换大约每年一次，通常预算在 500-1000 卢比左右。这有力地说明了废物处理率很高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Waste Management Bulletin

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