Circular economy landfills for temporary storage and treatment of mineral-rich wastes

IF 0.8 Q4 ENGINEERING, ENVIRONMENTAL

Proceedings of the Institution of Civil Engineers-Waste and Resource Management Pub Date : 2023-01-27 DOI:10.1680/jwarm.22.00008

D. Sapsford, D. I. Stewart, Dannielle E. Sinnett, I. Burke, P. Cleall, M. Harbottle, W. Mayes, N. Owen, A. Sardo, A. Weightman

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引用次数: 1

Abstract

Many countries face serious strategic challenges with the future supply of both aggregates and critical elements. Yet, at the same time, they must sustainably manage continued multimillion tonne annual arisings of mineral-dominated wastes from mining and industry. In an antithesis of Circular Economy principles, these wastes continue to be landfilled despite often comprising valuable components, such as critical metals, soil macronutrients and mineral components which sequester atmospheric CO2. In this paper, the authors aim to introduce a new concept for value recovery from mineral-rich wastes where materials are temporarily stored and cleaned in landfill-like repositories designed to be mined later. The time in storage is utilised for remediating contaminated materials and separating and concentrating valuable components. It is proposed that this could be achieved through engineering the repository to accelerate “lithomimetic” processes, i.e. those mimicking natural supergene processes responsible for the formation of secondary ores. This paper summarises the concept and justifications and outlines fundamental aspects of how this new concept might be applied to the design of future repositories. The proposed concept aims to end the current “linear” landfilling of mineral-rich wastes in favour of reuse as aggregates and ores.

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循环经济填埋场用于临时储存和处理富含矿物质的废物

许多国家在总量和关键要素的未来供应方面都面临严峻的战略挑战。然而，与此同时，它们必须可持续地管理每年从采矿和工业中产生的数百万吨矿物为主的废物。与循环经济原则相反，这些废物继续被填埋，尽管它们通常含有贵重成分，如关键金属、土壤宏量营养素和隔绝大气二氧化碳的矿物成分。在本文中，作者旨在介绍一种新的概念，即从富含矿物质的废物中回收价值，将材料暂时储存在类似垃圾填埋场的储存库中并进行清理，以便以后开采。储存的时间用于修复被污染的材料，分离和浓缩有价值的成分。有人提出，这可以通过设计储存库来加速“拟石”过程来实现，即那些模仿负责形成次生矿石的自然表生过程的过程。本文总结了这个概念和理由，并概述了如何将这个新概念应用于未来存储库设计的基本方面。拟议的概念旨在结束目前对富含矿物质的废物进行“线性”填埋的做法，转而将其作为集料和矿石进行再利用。

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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来源期刊

Proceedings of the Institution of Civil Engineers-Waste and Resource Management ENGINEERING, ENVIRONMENTAL-

CiteScore

1.70

自引率

14.30%

发文量

期刊介绍： Waste and Resource Management publishes original research and practice papers on all civil engineering and construction related aspects of the resource management cycle, from the minimization of waste, through the re-use and recycling, to the management and disposal of residual wastes. Associated legislation, standards, socio-economic considerations and links with sustainable consumption and production are included. The range of subjects covered encompasses, but is not restricted to, strategies for reducing construction waste through better design, improved recovery and re-use, more efficient resource management, the performance of materials recovered from wastes, and, the procurement, planning, design, construction, operation and logistics of waste and resource management facilities.