Lessons from Tailings Dam Failures—Where to Go from Here?

Williams, David J.

doi:10.3390/min11080853

Cited by 35 publications

(23 citation statements)

References 11 publications

(14 reference statements)

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“…The tailings storage facility was located in Mina El Teniente, approximately 180 km from the epicenter in the city of Talca, with an earthquake measuring 8.2 on the Richter scale in central Chile. The failure of this tailings storage facility on 1 December 1928 was the first recorded case of dynamic liquefaction-induced failure of a tailings storage facility in Chile [ 16 ]. The tailings dam was destroyed as a result of this earthquake, and the resulting flow of liquefied tailings inundated downstream settlements and facilities, killing 54 people.…”

Section: History Of Evolution Of Tailings Management and Governance I...mentioning

confidence: 99%

“…From 2014 to date, there were major disasters worldwide as a result of tailings deposit failures. Some examples are Mount Polley Canada (2014), Fundao Samarco Brazil (2015), Corrego do Feijao Brumandinho Brazil (2019), and Jagersfontain South Africa (2022), which caused the death of hundreds of people and irreparable environmental damage [ 16 ]. As a consequence of these disasters, the international community, institutions and global groups such as the International Council on Mining and Metals (ICMM), UN environment program, and the Principles for Responsible Investments (PRI), developed a “Global Tailings Management Standard for the Mining Industry”, launched in August 2020, with the aim of regulating the operation throughout the entire life cycle of tailings deposits, including closure and post-closure (perpetuity), considering zero harm to people and the environment, and zero tolerance for human fatalities [ 2 ].…”

Section: From the Lessons Learned To The Country’s Regulationmentioning

confidence: 99%

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Past, Present, and Future of Copper Mine Tailings Governance in Chile (1905–2022): A Review in One of the Leading Mining Countries in the World

Cacciuttolo

Atencio

2022

IJERPH

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How mine tailings storage facilities (TSF) are managed reflects the history, regulatory framework, and environment of a country and locale of the mine. Despite many attempts to find an environmentally friendly strategy for tailings management and governance that balances the needs of society and the ecosystem, there is no worldwide agreement regarding the best practices for tailings management and governance. This article reviews the evolution of copper tailings management and governance in Chile, current practices, and changes that could be or may need to be made to improve practices in response to local environmental conditions and local tolerance for risk. The progress to date in developing a holistic tailings management strategy is summarized. This article also describes recent proposals for the best available technologies (BATs), case histories of Chilean TSF using conventional technology, thickened tailings, paste tailings, filtered tailings, water use reduction, tailings reprocessing to obtain rare earth elements (REEs), circular economy, submarine deep-sea tailings disposal, and ways to avoid failure in a seismic region. Finally, the Chilean tailings industry’s pending issues and future challenges in reducing the socioenvironmental impacts of tailings are presented, including advances made and lessons learned in developing more environmentally friendly solutions.

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Section: History Of Evolution Of Tailings Management and Governance I...mentioning

confidence: 99%

Section: From the Lessons Learned To The Country’s Regulationmentioning

confidence: 99%

Past, Present, and Future of Copper Mine Tailings Governance in Chile (1905–2022): A Review in One of the Leading Mining Countries in the World

Cacciuttolo

Atencio

2022

IJERPH

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“…This is becoming an ever-increasing concern for the industry as the volume of tailings being produced continues to increase over time (Bowker & Chambers 2015). Tailings are generally made up of clays and silts, often with very high moisture content due to the pumping requirements and favourable economics of pumping compared to alternative deposition methods (Williams 2021). Tailings are stored in engineered facilities that are planned, designed, constructed, operated, closed and maintained in the long-term post-closure period (Mining Association of Canada 2017).…”

Section: Introductionmentioning

confidence: 99%

Advanced numerical modelling for closure work assistance

Lines¹,

Llano-Serna²

2022

Mine Closure 2022: 15th Conference on Mine Closure

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An internal bund was constructed for surface water management during the progressive closure of a tailings storage facility in northern Australia. Shortly after construction, and coinciding with the wet season's onset, significant longitudinal cracking was observed during routine visual inspections. Initial investigations involved more detailed visual inspections and satellite survey imagery to construct a timeline of events. Following this, three survey prisms were installed. Deformation modelling was complete to ascertain the extent of the cracking and settlement to establish potential ongoing and future consequences. The deformation modelling was conducted using Optum G2 with the modified cam-clay constitutive model being implemented based on the critical state concept. Model properties were derived from existing laboratory testing and field trials.Preliminary modelling results were used to determine appropriate locations for the additional installation of six survey prisms at critical locations anticipated to experience significant movement. Furthermore, vertical settlement recorded via survey prisms was utilised for model calibration and identification of the leading deformation mechanisms. Following calibration, the model was used to predict future settlement and to model several water management scenarios, such as incorporating potential decant pond increases and varying pumping capacity limits. The numerical model was instrumental in informing a management strategy for the closure works.The case study described herein shows how the use of numerical modelling as a tool was successfully employed to allow for more informed decision-making. This was accomplished by assessing the performance of geotechnical structures; in this case, the structure being an internal bund. Confidence in the numerical model was gained by calibrating results early during the deformation process and later using partial results for forward predictions.

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“…6 Sulfidic Cu−Zn−Pb tailings not only contain a significant amount of Cu, Zn, and Pb, but they also pose a threat to the environment (due to their As content) either by acid mine drainage (AMD) 7,8 or dam failure. 9,10 Lastly, extraction of valuable metals from such materials, as well as removal of toxic elements, also makes one step forward toward closing the loop of a circular economy according to near-zerowaste principles. 11 Thereby, the leftover matrix can be valorized as a product, such as inorganic polymers, supplementary cementitious materials, aggregates, ceramic products, etc.…”

Section: ■ Introductionmentioning

confidence: 99%

“…In the past few decades, humanity has faced an increasing demand for commodity metals such as Cu, Zn, and Pb as well as technology metals like Co, Mn, and others. , Increased pressure on the supply and a decrease of the grade of primary ores made secondary raw materials, such as industrial process residues, slags, and tailings, a progressively more viable resource for harvesting base and technology metals. − In metallurgical processes, tailings represent the unwanted fractions when the minerals of interest are concentrated from ores . Sulfidic Cu–Zn–Pb tailings not only contain a significant amount of Cu, Zn, and Pb, but they also pose a threat to the environment (due to their As content) either by acid mine drainage (AMD) , or dam failure. , Lastly, extraction of valuable metals from such materials, as well as removal of toxic elements, also makes one step forward toward closing the loop of a circular economy according to near-zero-waste principles . Thereby, the leftover matrix can be valorized as a product, such as inorganic polymers, supplementary cementitious materials, aggregates, ceramic products, etc. − …”

Section: Introductionmentioning

confidence: 99%

Additive-Free Aqueous Extraction of Copper and Zinc from Sulfidic Tailings Using Fast Microwave-Assisted Pre- and Post-Treatments

Kalebić

Dehaen

Spooren

2022

Ind. Eng. Chem. Res.

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Due to an ever-increasing demand for commodity and technology metals, secondary resources can complement the primary resource supply. Sulfidic mining waste from the Neves-Corvo mine (Portugal) is a pyrite-rich tailing that still contains valuable metals (Cu, Zn) and minor amounts of technology metals (Co, Mn) in the form of sulfides. In this work, by fine-tuning a fast microwave (MW)-assisted oxidative roasting process (5 min, 550 °C), the sulfide minerals containing the desired metals converted to water-soluble sulfate phases, whereas pyrite converted to waterinsoluble magnetite and hematite. The desired metals Cu (76%) and Zn (46%), as well as Co (66%) and Mn (53%), could thus be selectively leached over Fe (2.9%) in water (25 °C, 30 min). The obtained leachates were further purified by selectively precipitating Fe (95%) and As (100%) by a MW-assisted hydrothermal treatment (150 °C, 1 h), leaving Cu, Zn, Mn, and Co in solution for further recovery. In the proposed three-step method, no chemicals other than water were used, and the environmental risks of the final residues were significantly decreased, compared to those of the original sulfidic mining waste.

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Lessons from Tailings Dam Failures—Where to Go from Here?

Cited by 35 publications

References 11 publications

Past, Present, and Future of Copper Mine Tailings Governance in Chile (1905–2022): A Review in One of the Leading Mining Countries in the World

Past, Present, and Future of Copper Mine Tailings Governance in Chile (1905–2022): A Review in One of the Leading Mining Countries in the World

Advanced numerical modelling for closure work assistance

Additive-Free Aqueous Extraction of Copper and Zinc from Sulfidic Tailings Using Fast Microwave-Assisted Pre- and Post-Treatments

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