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The minerals industry in the era of digital transition: An energy-efficient and environmentally conscious approach
Wits Mining Institute (WMI), University of the Witwatersrand, Private Bag 3, 2050 Wits, South Africa.
Bavarian Georesources Centre, Department of Geodynamics and Geomaterials Research, Institute of Geography and Geology, University of Würzburg, Am Hubland, D-97074, Würzburg, Germany; Department of Geological Sciences, University of Cape Town, Rondebosch, 7700, South Africa.ORCID iD: 0000-0003-3041-8208
Wits Mining Institute (WMI), University of the Witwatersrand, Private Bag 3, 2050 Wits, South Africa; Geological Survey of Canada, 601 Booth Street, Ottawa, Ontario, K1A 0E9, Canada; SmartMin Limited, 39 Kiewiet Street, Helikon Park, 1759, South Africa.ORCID iD: 0000-0002-3952-3728
Geological Survey of Canada, 601 Booth Street, Ottawa, Ontario, K1A 0E9, Canada.
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2022 (English)In: Resources policy, ISSN 0301-4207, E-ISSN 1873-7641, Vol. 78, article id 102851Article, review/survey (Refereed) Published
Abstract [en]

The concept of the 4th industrial revolution is becoming a strategic determinant of sustainability, success and competitiveness in the modern mining sector. The importance of digital transformation in the mining industry has long been debated, hampered in part by the conservative nature of the mining sector. Much of the debate has focused on choosing suitable mining techniques that provide acceptable levels of ore/waste selectivity, the scale of implementation, cost reduction and suitable metallurgical extraction techniques. The purpose of this review is to give an overview of the digital transformation of the minerals and extractive industry with a focus towards energy efficiency and environmental sustainability. We address: (a) geological elements that influence the level of selectivity during mining, and technologies that deal with waste rejection; (b) eco-friendly techniques, such as tunnel-boring machines, or the use of non-explosive techniques that can assist fragmentation of ores, thereby decreasing energy requirements during mineral processing and improving mineral recovery; (c) use of low-water-consumption automated ore-waste sorting systems; (d) selective metal leaching using coarse particle percolation as an alternate method for treating complicated low-grade ores; and (e) assessing new technological boundaries for the mineral sector. A combination of these aforementioned processes will significantly reduce mining waste. Orebody features, mining methods and equipment, desired scales of implementation, alignment with circular strategies, ore extraction efficiency, and socio-economic factors all play a role in the development and implementation of new technologies and techniques.

Place, publisher, year, edition, pages
Elsevier, 2022. Vol. 78, article id 102851
Keywords [en]
Digital transition, Orebody, Selective mining, Mechanisation, Mineral processing, Percolation leaching
National Category
Metallurgy and Metallic Materials
Research subject
Mineral Processing
Identifiers
URN: urn:nbn:se:ltu:diva-91914DOI: 10.1016/j.resourpol.2022.102851ISI: 000838123500012Scopus ID: 2-s2.0-85132940875OAI: oai:DiVA.org:ltu-91914DiVA, id: diva2:1676796
Funder
Luleå University of Technology, CAMM
Note

Validerad;2022;Nivå 2;2022-06-27 (sofila);

Funder: Department of Science and Innovation (DSI)-National Research Foundation (NRF) Thuthuka Grant (grant no. 121973), DSI-NRF CIMERA; Sibanye-Stillwater Ltd

Available from: 2022-06-27 Created: 2022-06-27 Last updated: 2023-02-28Bibliographically approved

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Ghorbani, Yousef

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