Jump to content

英文维基 | 中文维基 | 日文维基 | 草榴社区

List of hydroelectric power station failures

From Wikipedia, the free encyclopedia
Rexburg flooded following Teton Dam failure

This is a list of major hydroelectric power station failures due to damage to a hydroelectric power station or its connections. Every generating station trips from time to time due to minor defects and can usually be restarted when the defect has been remedied. Various protections are built into the stations to cause shutdown before major damage is caused. Some hydroelectric power station failures may go beyond the immediate loss of generation capacity, including destruction of the turbine itself, reservoir breach and significant destruction of national grid infrastructure downstream. These can take years to remedy in some cases.

Where a generating station is large compared to the connected grid capacity, any failure can cause extensive disruption within the network. A serious failure in a proportionally large hydroelectric generating station or its associated transmission line will remove a large block of power from the grid that may lead to widespread disturbances.

List of failures

[edit]
Plant Location Country Description Year Reference
St. Francis Dam Los Angeles County  United States Catastrophically failed due to a defective soil foundation and design flaws, triggering a flood that claimed the lives of at least 431 people. 1928
Sella Zerbino Dam Molare  Italy Catastrophically failed due to overtopping after a heavy rainfall event, triggering a flood that claimed the lives of at least 111 people. 1935 [1]
Möhne Reservoir Ruhr  Germany Destroyed during WWII by RAF Lancaster bombers during Operation Chastise. 5.1 MW capacity lost for about six weeks. At least 1,579 people killed by the resulting floodwave. 1943
Edersee Dam Waldeck-Frankenberg  Germany Destroyed during WWII by RAF Lancaster bombers during Operation Chastise. 16 MWe of generation lost. 1943
Sui-ho, Fusen, Kyosen and Choshin Dams Korea Due to enemy bombing, attacked during the Korean War resulting in the loss of approximately 90% of North Korea's generation capacity 1952 [2]
Schoellkopf Power Station Niagara Falls, New York  United States Destruction of the plant as it fell from the Niagara Gorge wall and collapsed into the Niagara River, caused by water seeping into the back wall of the power station. One worker was killed and damage was estimated at US$100 million (or $1121 million today, adjusted for inflation). 1956 [3]
Malpasset Dam Côte d'Azur  France breach was caused by a tectonic fault in the impermeable rock base, which had been inadequately surveyed. 423 deaths 1959
Vajont Dam Pordenone  Italy Overtopping due to landslide caused by instability of the rock around, with the evidence of the instability suppressed by the Government. 1,917 deaths 1963
Mangla Dam Kashmir  Pakistan The power house was damaged due to an Indian Air Force raid during the Indo-Pakistani War of 1971. The 1000 MW hydro project was temporarily out of service. 1971 [4]
Banqiao Dam Henan  China 1975 Banqian Dam failure: 26,000 dead from flooding, 145,000 dead from subsequent famine and epidemics, 11 million homeless. Caused loss of generation, dam failed by overtopping in a 1-in-2,000 year flood[5] 1975
Teton Dam Idaho  United States The dam foundations washed away and a wave swept aside everything in its path, including two towns, killing at least eleven people, and thousands of cattle.[6] 1976
Machchhu Dam Morbi  India The Machhu Dam-II collapsed, leading to the deluge of the city of Morbi and the surrounding rural areas. 1800–25,000 people were killed.[7][8] 1979
Lawn Lake Dam Colorado  United States Failed in fair weather due to a combination of poor construction, age, and neglect. Caused downstream failure of the Cascade Dam. Destroyed historical Stanley hydro power station and a fish hatchery. Flooded a campground and the town of Estes Park impacting 75% of business activity. $31 million in damages and three lives lost. Three similar dams in the region were subsequently demolished. 1982 [9]
Dartmouth Dam Victoria  Australia The 180MW Francis turbine-generator running at full speed was instantaneously stopped by a foreign body left in the penstock following maintenance.[7] The installation shifted about 2m within the base of the 180m high earth and rock fill gravity dam wall of the 3,906GL reservoir. After initial consternation regarding the integrity of the wall (declared safe after lengthy assessment), the hydro installation was repaired/replaced but was off-line for several years. A breach of the wall would have obliterated only a couple of small towns and a sparsely settled agricultural area in the relatively narrow 120 km Mitta Mitta valley below the dam, but more significantly, would have resulted in the over-topping and probable failure of the earthen walls of the 40m high 3,038GL Lake Hume, 200 km downstream on the Murray River. This is immediately upstream of the regional cities of Albury and Wodonga and a much more intensively settled irrigation area, and consequences would have been disastrous. 1990
Srisailam Dam Andhra Pradesh  India Due to poor reservoir operation, flood water overflowed into the semi underground power house (770 MW) from the point where a protection wall was to be constructed before power house commissioning in 1987. Flood water deluge caused the complete submergence of power house, massive debris accumulation, electrical equipment replacement and loss of power generation for a year 1998 [10]
Bieudron Hydroelectric Power Station Valais   Switzerland 1269 MW loss, penstock rupture, three fatalities, flooding and loss of generating capacity 2000 [11]
Taum Sauk Hydroelectric Power Station Missouri  United States Due to its being designed without a spillway and continuing to operate when management knew the gauging system was faulty, the upper reservoir was overtopped when water continued to be pumped from the lower reservoir after the upper was already full. A large section of the upper reservoir failed, draining over a billion gallons of water (4 million m³) in less than half an hour. There were no fatalities, but five people were injured. The failure resulted in permanent damage to the surrounding landscape and power generation did not resume until 2010. 2005 [12][13][14]
Itaipu Dam Paraná (BR)
Alto Paraná (PY)
 Brazil
 Paraguay
18 GW power generation loss due to storm damage of transmission lines. 2009 see also: 2009 Brazil and Paraguay blackout
Sayano-Shushenskaya Dam Khakassia  Russia 2009 Sayano-Shushenskaya hydro accident, 6 GW power generation loss, 75 fatalities, due to turbine failure 2009 [15]
Srisailam Dam Andhra Pradesh  India On 2 October 2009, an earth dam burst above the Srisailam reservoir creating a record inflow which threatened the dam 2009 [16]
Vishnuprayag hydro electric station (400 MW) Uttarakhand  India Flash floods resulted in accumulation of huge quantity of muck and debris in the dam reservoir 2013 [17]
Dhauliganga hydro electric station (280 MW) Uttarakhand  India Unprecedented flash floods in June, 2013 in the State of Uttarakhand causing the complete submergence of power house. Massive debris accumulation, electrical equipment replacement and loss of total generation capacity for more than six months. 2013 [18]
Uri-II Power Station (240 MW) Jammu and Kashmir  India A large fire incident happened in one of the transformers of the power station. 2014
Oroville Dam California  United States Damaged spillway caused evacuation of 180,000 2017 See also: Oroville Dam crisis
Kakhovka Dam Kherson Oblast  Ukraine
(occupied by  Russia)
Breached during the Russian invasion of Ukraine. The destruction of the dam led to tens of thousands of people being in a flood zone and more than 50 deaths. 2023 See also: Destruction of the Kakhovka Dam
Bargi hydroelectric power station Camugnano  Italy Explosion in turbine killed 6 workers. 2024 See also: 2024 Lake Suviana explosion

See also

[edit]

References

[edit]
  1. ^ "1935 Sella Zerbino Dam-Break Case Revisited: A New Hydrologic and Hydraulic Analysis". paper. ASCE. Winter 2009. doi:10.1061/(ASCE)HY.1943-7900.0001760. Retrieved 8 May 2024.
  2. ^ "Historical Review: Bombings of Dams" (PDF). Bulletin. Canadian Dam Association. Winter 2009. Archived from the original (PDF) on 20 March 2012. Retrieved 11 August 2011.
  3. ^ Schoellcopf collapse
  4. ^ "Hunter". Global Security.org. Retrieved 2007-07-09.
  5. ^ "Resources".
  6. ^ "A Bigger Problem Than ISIS?". The New Yorker. 26 December 2016.
  7. ^ Easwaran, S.B. "The Loudest Crash Of '79". Retrieved 28 May 2019.
  8. ^ Bhadur, Amita. "Machhu dam disaster of 1979 in Gujarat – Discussion on a book by Tom Wooten and Utpal Sandesara". www.indiawaterportal.org. Retrieved 28 May 2019.
  9. ^ "The Lawn Lake Flood". Town of Estes Park. Archived from the original on December 9, 2011.
  10. ^ "Power house at Srisailam submerged". Retrieved 23 June 2014.
  11. ^ "Cleuson-Dixence Rehab Nears End". Tunnel Builder. August 9, 2008. Archived from the original on 17 July 2011. Retrieved 22 January 2011.
  12. ^ "Taum Sauk Reservoir fails". Archived from the original on 2006-12-18.
  13. ^ http://www.bpa.gov/power/PG/NW-HydroOperators-Forum/Materials/CaseStudyT-Sauk_Ehasz-Paul.pdf Missouri University of Science & Technology: The 2005 Upper Taum Sauk Dam Failure:A Case History
  14. ^ http://www.ferc.gov/industries/hydropower/safety/projects/taum-sauk/staff-rpt.asp Archived 2016-03-06 at the Wayback Machine Federal Energy Regulatory Commission Staff Report
  15. ^ Ilya Naymushin (2009-08-17). "Russian dam disaster kills 10, scores missing". Reuters. Retrieved 2009-08-17.
  16. ^ "Managing historic flood in the Krishna river basin in the year 2009". Archived from the original on 2017-10-26. Retrieved 2013-03-07.
  17. ^ "Directive to Vishnuprayag project builders on dumping of silt". dailypioneer.com. 25 June 2014. Retrieved 9 May 2024.
  18. ^ "Curtain Raiser on the events at NHPC's 280 MW Dhauliganga HEP" (PDF). Archived from the original (PDF) on 3 November 2013. Retrieved 1 November 2013.