矿山和废料回收之外的供应保障:冶金残渣的价值潜力。

IF 4.3 3区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences Pub Date : 2024-12-02 Epub Date: 2024-11-04 DOI:10.1098/rsta.2023.0237
Stefan Steinlechner, Kerrin Witt
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引用次数: 0

摘要

在《欧洲关键原材料法案》的背景下,这项工作试图证明有色金属冶金残余材料流的潜力,以及在技术和经济可行的加工条件下,通过当地可用的新二次资源,对金属供应安全可能做出的贡献。我们以铝、锌、铜和铅工业为基础,讨论了由此产生的废料流,特别是描述了由物理、化学和冶金步骤组成的复杂过程。由于产生过程的不同,废渣、粉尘甚至淤泥的形态和成分也多种多样。过去曾对许多后处理概念进行过研究,但其目标通常只是回收一种目标元素或避免填埋,例如将其用作建筑材料,这样所含的金属就会完全流失。如果目标是提取贵重物品,所需的跨学科工艺开发必须基于深入的特征描述,以了解金属和微量元素在可能的提取步骤中的行为,并制定适当的策略来影响目标元素的行为,从而达到提取的目的。首先要深入了解形成过程,这也是本文的主题,它直接影响到材料的成分和形态,从而为了解潜在回收过程中的行为奠定基础。此外,文章还介绍了残留材料流的典型成分、来源和数量(如有),总之,文章试图通过 SWOT 分析对材料进行评估,并应对开发提取加工步骤所面临的挑战。虽然矿山尾矿大多出现在欧洲以外的地区,但由于精矿的加工在欧洲进行,因此冶金残余材料的潜力在欧洲本地也有体现。这为可能的再加工带来了若干潜在优势,如无需或缩短运输路线,这与较低的排放量、确定的体积和已知的成分、无地缘政治风险、保护原始资源以及通过更全面地利用原材料提高欧洲的可持续性有关。
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Supply security beyond mines and scrap recycling: valorization potential of metallurgical residues.

In the context of the European Critical Raw Materials Act, this work attempts to demonstrate the potential of residual material flows from non-ferrous metallurgy and their possible contribution to the supply security of metals by locally available new secondary resources, assuming technically and economically viable processing. Based on the aluminium, zinc, copper and lead industries, the resulting waste streams are discussed and, in particular, the complex process consisting of physical, chemical and metallurgical steps is described. Their diversity, be it slags, dusts or even sludges, has a wide variety of morphologies and compositions due to the process of generation. In the past, many concepts for reprocessing were investigated, but the goal was usually only the recovery of one target element or to avoid landfilling by using it, for example, as a building material, whereby the metals contained are completely lost. If the target is the extraction of valuables, the required interdisciplinary process development must be based on an in-depth characterization to understand the behaviour of metals and trace elements in possible extraction steps and also to develop suitable strategies for influencing the behaviour of target elements with the aim of extraction. This starts with an in-depth comprehension of the formation process, which is the subject of this article and has a direct influence on the composition and morphology of the materials, thus forming the basis for understanding the behaviour in potential recycling processes. Furthermore, typical compositions of the residual material streams, sources and, if available, quantities are shown and, in summary, an attempt is made to evaluate the materials in a SWOT analysis and to address the challenges in developing extraction steps for processing. While mine tailings are mostly found outside of Europe, the potential of the residual materials from metallurgy is local due to the processing of the concentrates in Europe. This leads to several potential advantages in a possible reprocessing, such as no or shorter transport routes, which is linked to lower quantity of emissions, defined volume and known composition, no geopolitical risk, conservation of primary resources, and increasing Europe's sustainability through a more comprehensive use of the raw materials.This article is part of the discussion meeting issue 'Sustainable metals: science and systems'.

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来源期刊
CiteScore
9.30
自引率
2.00%
发文量
367
审稿时长
3 months
期刊介绍: Continuing its long history of influential scientific publishing, Philosophical Transactions A publishes high-quality theme issues on topics of current importance and general interest within the physical, mathematical and engineering sciences, guest-edited by leading authorities and comprising new research, reviews and opinions from prominent researchers.
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