(2024) Chemical Engineering Journal_Technical advancement in valorization of electronic waste and its contribution to establishing economic value-chain
Kwon G.; Yoon K.; Kwon E.; Park J.; Lee H.; Song H.
(Elsevier B.V.) Chemical Engineering Journal ISSN: 13858947 Vol.494 Issue. Article No.153154 DOI: 10.1016/j.cej.2024.153154
The rapid expansion of the electronics industry has entailed unavoidable generation of electronic waste (e-waste) in a massive quantity. Although e-waste contains varying degrees of precious metals and rare earth elements, a substantial portion of e-waste is ended up in landfills and incineration facilities. These management practices preemptively eliminate the possibility of recovering those elements from e-waste and often lead to environmental contamination. Nonetheless, there has been a consistent increase in the global demand for those critical metals, resulting in a steady rise in their prices. To address this issue, researchers have put multifaceted efforts to reclaim e-waste as a renewable resource. Several metallurgical techniques have proven to be effective in refining precious and rare earth metals from e-waste. Besides, thermochemical process has been developed to convert plastic materials in e-waste into fuel gases and other value-added chemicals. These approaches contribute to establishing economic value-chain of e-waste. To this end, this review critically discusses up-to-date technical advancements in e-waste reclamation processes with an emphasis on their potential role in realizing a circular economy. Lastly, the studies on life-cycle assessment of e-waste are reviewed to assess the environmental and industrial consequences of current reclamation processes. © 2024 Elsevier B.V.
This work was partly supported by Institute of Information & Communications Technology Planning & Evaluation (IITP) grant funded by the Korean government (MSIT) (No. 2020-0-01373, Artificial Intelligence Graduate School Program
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