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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Environmental desulfurization of mine wastes using various mineral processing techniques: Recent advances and opportunities

Minerals Engineering ◽

10.1016/j.mineng.2021.107225 ◽

2021 ◽

Vol 174 ◽

pp. 107225

Author(s):

Yassine Ait-Khouia ◽

Mostafa Benzaazoua ◽

Isabelle Demers

Keyword(s):

Mineral Processing ◽

Mine Wastes ◽

Recent Advances ◽

Processing Techniques

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The COOL-Process—A Selective Approach for Recycling Lithium Batteries

Metals ◽

10.3390/met11020259 ◽

2021 ◽

Vol 11 (2) ◽

pp. 259

Author(s):

Sandra Pavón ◽

Doreen Kaiser ◽

Robert Mende ◽

Martin Bertau

Keyword(s):

Lithium Ion ◽

Global Market ◽

Raw Material ◽

Mass Ratio ◽

Reaction Conditions ◽

Cool Process ◽

Secondary Sources ◽

Selective Approach ◽

Valuable Metals ◽

Housing Materials

The global market of lithium-ion batteries (LIB) has been growing in recent years, mainly owed to electromobility. The global LIB market is forecasted to amount to $129.3 billion in 2027. Considering the global reserves needed to produce these batteries and their limited lifetime, efficient recycling processes for secondary sources are mandatory. A selective process for Li recycling from LIB black mass is described. Depending on the process parameters Li was recovered almost quantitatively by the COOL-Process making use of the selective leaching properties of supercritical CO2/water. Optimization of this direct carbonization process was carried out by a design of experiments (DOE) using a 33 Box-Behnken design. Optimal reaction conditions were 230 °C, 4 h, and a water:black mass ratio of 90 mL/g, yielding 98.6 ± 0.19 wt.% Li. Almost quantitative yield (99.05 ± 0.64 wt.%), yet at the expense of higher energy consumption, was obtained with 230 °C, 4 h, and a water:black mass ratio of 120 mL/g. Mainly Li and Al were mobilized, which allows for selectively precipitating Li2CO3 in battery grade-quality (>99.8 wt.%) without the need for further refining. Valuable metals, such as Co, Cu, Fe, Ni, and Mn, remained in the solid residue (97.7 wt.%), from where they are recovered by established processes. Housing materials were separated mechanically, thus recycling LIB without residues. This holistic zero waste-approach allows for recovering the critical raw material Li from both primary and secondary sources.

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Mining Industry Impact on Environmental Sustainability, Economic Growth, Social Interaction, and Public Health: An Application of Semi-Quantitative Mathematical Approach

Processes ◽

10.3390/pr9060972 ◽

2021 ◽

Vol 9 (6) ◽

pp. 972

Author(s):

Muhammad Mohsin ◽

Qiang Zhu ◽

Sobia Naseem ◽

Muddassar Sarfraz ◽

Larisa Ivascu

Keyword(s):

Economic Growth ◽

Energy Source ◽

Coal Mining ◽

Environmental Sustainability ◽

Mining Industry ◽

Provincial Government ◽

Mining Operations ◽

Human Needs ◽

The Government ◽

Operational Activities

The mining industry plays a significant role in economic growth and development. Coal is a viable renewable energy source with 185.175 billion deposits in Thar, which has not been deeply explored. Although coal is an energy source and contributes to economic development, it puts pressure on environmental sustainability. The current study investigates Sindh Engro coal mining’s impact on environmental sustainability and human needs and interest. The Folchi and Phillips Environmental Sustainability Mathematics models are employed to measure environmental sustainability. The research findings demonstrated that Sindh Engro coal mining is potentially unsustainable for the environment. The toxic gases (methane, carbon dioxide, sulfur, etc.) are released during operational activities. The four significant environment spheres (atmosphere, hydrosphere, biosphere, and lithosphere) are negatively influenced by Thar coal mining. The second part of the analysis results shows that human needs and interests have a positive and significant relationship except for human health and safety with Sindh Engro coal mining. Environmental pollution can be controlled by utilizing environmentally friendly coal mining operations and technologies. Plantation and ecological normalization can protect the species, flora, and fauna of the Thar Desert. The government of Pakistan and the provincial government of Sind should strictly check the adaptation of environmental standards. Furthermore, the researchers should explore the environmental issues and solutions so that coal mining becomes a cost-efficient and environmental-friendly energy source in Pakistan.

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STRATEGIES, CHALLENGES AND SOLUTIONS TOWARDS THE IMPLEMENTATION OF GREEN CAMPUS IN UiTM PERAK

PLANNING MALAYSIA JOURNAL ◽

10.21837/pm.v19i16.952 ◽

2021 ◽

Vol 19 (16) ◽

Author(s):

Haryati Mohd Isa ◽

Daljeet Singh Sedhu ◽

Nor Suzila Lop ◽

Kushairi Rashid ◽

Othman Mohd Nor ◽

...

Keyword(s):

Sustainable Development ◽

Environmental Sustainability ◽

Technology Policy ◽

Structured Interview ◽

Green Technology ◽

Sustainable Environment ◽

Development Goals ◽

Green Campus ◽

Financial Awareness ◽

Method Approach

Green initiatives have become a phenomenon globally now. This has taken seriously all parties regarding the process of environmental sustainability. Sustainable Development Goals had been used as a guideline towards this agenda. The Malaysian government issued the Green Technology Policy in July 2009 to accelerate the national economy and promote sustainable development. Meanwhile, green technology has been applied to universities in Malaysia to achieve green campus status under the UI Green Metric. Numerous universities in Malaysia have begun to take this issue seriously, including UiTM Perak. Three research objectives had been developed; (1) to determine strategies in promoting green campus in UiTM Perak, (2) to identify challenges in implementing green campus in UiTM Perak and (3) to recommend solutions to overcome the challenges in implementing green campus in UiTM Perak. A qualitative method approach by using a semi-structured interview with the Green Campus Committee had been adopted. The data is analysed using content analysis. The research revealed that despite several green initiatives implemented by UiTM Perak, there are also challenges occurring. Among them are financial, awareness and knowledge. To overcome these challenges, the management of UiTM Perak had outlined several actions to be taken. In conclusion, the green campus initiative can give many benefits towards a sustainable environment in UiTM Perak. Indeed, this agenda needs support by all parties.

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The emergence of e‐market services in the Australian mining industry: Ludowici Mineral Processing Pty Ltd, Quadrem eMarketplace, and Austrade eMarket Services

Managing Service Quality ◽

10.1108/09604520210434866 ◽

2002 ◽

Vol 12 (4) ◽

pp. 257-264 ◽

Cited By ~ 1

Author(s):

Helen Lassen ◽

Jay Kandampully ◽

Sunita Barker

Keyword(s):

Mining Industry ◽

Mineral Processing

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Green technology vs environmental sustainability in india– an overview

International Journal of Current Advanced Research ◽

10.24327/ijcar.2017.2468.0029 ◽

2017 ◽

Vol 6 (3) ◽

pp. 2465-2468

Author(s):

Gangadhar B ◽

◽

Ramakrishna Naidu G ◽

Keyword(s):

Environmental Sustainability ◽

Green Technology

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A brief procedure to fabricate soils from coal mine wastes based on mineral processing, agricultural, and environmental concepts

Minerals Engineering ◽

10.1016/j.mineng.2014.11.005 ◽

2015 ◽

Vol 76 ◽

pp. 81-86 ◽

Cited By ~ 8

Author(s):

Beatriz Alicia Firpo ◽

Juarez Ramos do Amaral Filho ◽

Ivo André Homrich Schneider

Keyword(s):

Coal Mine ◽

Mineral Processing ◽

Mine Wastes ◽

Environmental Concepts

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Pasture species behaviour on sulfide mine tailings rehabilitated with a designed Technosol

10.5194/egusphere-egu2020-12598 ◽

2020 ◽

Author(s):

Diego Arán ◽

Erika Santos ◽

Maria Manuela Abreu ◽

Juan Antelo ◽

Felipe Macías

Keyword(s):

Mine Tailings ◽

Trifolium Pratense ◽

Mine Drainage ◽

Plant Cover ◽

Mining Area ◽

Physicochemical Characteristics ◽

Superficial Layer ◽

Green Technology ◽

Shoot Biomass ◽

Mine Wastes

The uranium mineralization from F&#233; mining area (Spain) contains sulfides, resulting mine wastes generators of acid mine drainage rich in potentially hazardous elements (PHE). The improvement of the physicochemical characteristics and biogeochemical processes of sulfide mine tailings as well as their socioeconomic valorisation can be achieved by the application of a green technology based on circular economy: Technosol. The efficiency of the application of a superficial layer of a designed Technosol with specific properties to the rehabilitation of the sulfide tailings from F&#233; mining area was tested. Also, the risk assessment of the land recovery by this technology to pasture was evaluated through a microcosm experiment.After 20 months of the Technosol application in the field, composite samples of Technosol, recovered tailing (bottom of the Technosol) and tailings without recuperation (control tailing) were collected. These samples were used for microcosm assay and characterized for pH, electric conductivity, fertility, PHEs concentration in total fraction and available fraction extracted with rhizosphere-based method. The substrate effect on development of Lollium perenne and Trifolium pratense (visual signs of phytotoxity, percentage of plant cover and dry shoots biomass) and multielemental composition in their of shoots was evaluated in microcosm assay under greenhouse conditions.Mine wastes from control tailing had pH &#8776;4 and high total concentrations of several PHEs (g/kg; Al: 46.2; As, Co and Pb: 0.02-0.03; Cu: 0.04; Fe: 63.2 Mn: 1.3; Ni and Zn: 0.1-0.2). Potentially toxic concentrations of Co, Mn and Ni were identified in the available fraction pointing out the serious environmental risk posed by the control tailing. These chemical characteristics together lack of structure iin mine wastes from control tailing contributed to total inhibition of Trifolium germination and a significant diminution of Lollium growth. Both species growing in Technosol and recovered tailing produced significant plant cover and quite similar amounts of shoot biomass.The improvement of the overall physicochemical properties in the recovered tailing materials (e.g. the decrease of the hazardous element concentrations in available fraction, and the improvement of the fertility and structure) allowed a quick and secure plant cover with pasture species. The results evidenced the efficiency of the designed Technosol in the sulfide mine tailing rehabilitation and potential land recovery to pastures.The authors thank ENUSA for technical cooperation and providing the study area and soil samples.

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