矿山废弃物技术圈开采:应用与挑战综述

Bona Lim, R. Alorro
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引用次数: 13

摘要

从技术圈库存中开采或提取有价值的金属和矿物的概念被称为技术圈采矿。作为有价值材料的潜在二次来源,开采这些技术圈库存可以提供解决方案,以最大限度地减少最终处置的废物,增加金属或矿物的供应,并减少矿物开采带来的环境遗产。事实上,采矿和矿物加工工业产生的废物流如果管理不当,可能造成长期的负面环境遗产。因此,采矿工业有很强的动机/动力来回收和重新利用矿山和矿物废料,因为它们含有可以产生不同用途和新产品的贵重金属和材料。本文综述了矿山废弃物技术圈开采及其应用,并介绍了技术圈开采作为一个新概念所面临的挑战。确定必须统一关于矿山废料和尾矿的标准和政策,作为治理的一部分,同时必须进行研究和发展、数据管理以及工业界和学术界之间的有效交流,以便将技术圈采矿提高到下一个水平。本审查试图通过结合绿色技术、可持续化学和生态效率,将技术圈采矿与促进采矿业的环境可持续性做法联系起来。我们认为,发展环境友好的过程和绿色技术可以确保矿业的积极遗产。通过介绍矿山废物的具体例子,我们展示了如何利用各种冶金和矿物加工技术回收它们所含的有价值的金属或矿物,从而实现废物循环,有利于循环经济。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Technospheric Mining of Mine Wastes: A Review of Applications and Challenges
The concept of mining or extracting valuable metals and minerals from technospheric stocks is referred to as technospheric mining. As potential secondary sources of valuable materials, mining these technospheric stocks can offer solutions to minimise the waste for final disposal and augment metals’ or minerals’ supply, and to abate environmental legacies brought by minerals’ extraction. Indeed, waste streams produced by the mining and mineral processing industry can cause long-term negative environmental legacies if not managed properly. There are thus strong incentives/drivers for the mining industry to recover and repurpose mine and mineral wastes since they contain valuable metals and materials that can generate different applications and new products. In this paper, technospheric mining of mine wastes and its application are reviewed, and the challenges that technospheric mining is facing as a newly suggested concept are presented. Unification of standards and policies on mine wastes and tailings as part of governance, along with the importance of research and development, data management, and effective communication between the industry and academia, are identified as necessary to progress technospheric mining to the next level. This review attempts to link technospheric mining to the promotion of environmental sustainability practices in the mining industry by incorporating green technology, sustainable chemistry, and eco-efficiency. We argue that developing environmentally friendly processes and green technology can ensure positive legacies from the mining industry. By presenting specific examples of the mine wastes, we show how the valuable metals or minerals they contain can be recovered using various metallurgical and mineral processing techniques to close the loop on waste in favour of a circular economy.
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