- Source: Tailings dam failure
The structural failure of tailings dams and the ensuing release of toxic metals in the environment is a great concern. The standard of public reporting on tailings dam incidents is poor. A large number remain completely unreported, or lack basic facts when reported. There is no comprehensive database for historic failures. According to mining engineer David M Chambers of the Center for Science in Public Participation, 10,000 years is "a conservative estimate" of how long most tailings dams will need to maintain structural integrity.
Rate
The lack of any comprehensive tailings dam database has prevented meaningful analysis, either gross comparisons (such as country to country comparisons, or tailings dam failures versus hydro dam failure rates) or technical failure analysis to help prevent future incidents. The records are very incomplete on crucial data elements: design height of dam, design footprint, construction type (upstream, downstream, center line), age, design life, construction status, ownership status, capacity, release volume, runout, etc.
An interdisciplinary research report from 2015 recompiled the official global record on tailings dam failures and major incidents and offered a framework for examining the severity and consequence of major incidents. That report shows a correlation between failure rates and the pace of copper ore production, and also establishes a relationship between the pursuit of lower grades of ore, which produces larger volumes of waste, and increasingly severe incidents. For this reason, several programs to make tailing dams more sustainable have been set in motion in countries like Chile, where there are more than 740 spread across the country.
Environmental damage
The mining and processing byproducts collected in tailings dams are not part of the aerobic ecological systems, and are unstable. They may damage the environment by releasing toxic metals (arsenic and mercury among others), by acid drainage (usually by microbial action on sulfide ores), or by damaging aquatic wildlife that rely on clear water.
Tailings dam failures involving significant ecological damage include:
the Jagersfontein Tailings Dam Collapse, South Africa in September 2022, was a structural failure of a tailings dam used by a stockpile mineral reprocessor, resulting in a mudslide through the town and surrounding farmland.
the Brumadinho dam disaster, Brazil, 25 January 2019, where as many as 252 people are unaccounted for, and at least 134 are dead. The disaster released 12 million cubic meters of iron waste leading to the Paraopeba River.
the Bento Rodrigues dam disaster, Brazil, 5 November 2015, considered the worst environmental disaster in Brazil's history, killed 19 people when an iron ore containment dam failed and released 60 million cubic meters of iron waste.
the Mount Polley mine, British Columbia, 4 August 2014, which released 10 million cubic metres of water and 4.5 million cubic metres of metals-laden tailings from a holding reservoir.
the Ok Tedi environmental disaster in New Guinea, which destroyed the fishery of the Ok Tedi River, continuously from 1984 through 2013
the Sotkamo metals mine, Finland, 4 November 2012, released "hundreds of thousands of cubic metres" of waste water which raised concentrations of uranium, nickel, and zinc in nearby Snow River, each to at least 10 times the harmful level.
the Ajka alumina plant accident, Hungary, 4 October 2010, which released one million cubic metres of red mud, a waste product of aluminum refining, flooding the village of Kolontár and killing the Marcal River.
the Baia Mare cyanide spill, Romania, 30 January 2000, called the worst environmental disaster in Europe since the Chernobyl disaster
The Doñana disaster, southern Spain, 25 April 1998, which released 4 million-5 million cubic metres of acidic tailings containing heavy metals.
the Merriespruit tailings dam disaster, South Africa occurred on the night of 22 February 1994 when a tailings dam failed and flooded the suburb of Merriespruit, Virginia. Seventeen people were killed as a result.
the Church Rock uranium mill spill in New Mexico, 16 July 1979, the largest release of radioactive waste in U.S. history
three uranium tailings dams near the town of Ak-Tüz, present-day Kyrgyzstan, collapsed in a December 1964 earthquake, releasing 60% of their radioactive volume (600,000 cubic metres (21,000,000 cu ft)) into the Kichi-Kemin River and its agricultural valley
an incident on 7 April 1961, released 700,000 cubic metres (25,000,000 cu ft) of uranium mine tailings from operations of the Soviet-era Wismut organization into the Zwickauer Mulde River in the village of Oberrothenbach
the Mailuu-Suu tailings dam failure also in Soviet-era Kyrgyzstan on 16 April 1958, caused the uncontrolled release of 600,000 cubic metres (21,000,000 cu ft) of the radioactive uranium-mine tailings in to spill downstream into a portion of the densely populated Ferghana Valley
Tailings ponds can also be a source of acid drainage, leading to the need for permanent monitoring and treatment of water passing through the tailings dam. For instance in 1994 the operators of the Olympic Dam mine, Western Mining Corporation, admitted that their uranium tailings containment had released of up to 5 million m3 of contaminated water into the subsoil. The cost of mine cleanup has typically been 10 times that of mining industry estimates when acid drainage was involved.
Casualties
The following table of the deadliest known tailings dam failures is not comprehensive, and the casualty figures are estimates.
Largest
The following list focuses on the largest tailings dam failures:
References
Further reading
A chronology of major tailings dam failures
Mineral Policy Institute tailings dam failure list
https://worldminetailingsfailures.org/
Kata Kunci Pencarian:
- Kebobolan bendungan
- Tailings dam failure
- Tailings dam
- Dam failure
- Mariana dam disaster
- Tailings
- 1958 Mailuu-Suu tailings dam failure
- Brumadinho dam disaster
- Val di Stava dam collapse
- 2022 Jagersfontein dam collapse
- Merriespruit tailings dam disaster
