Kajaki Dam
| Kajakai Dam | |
|---|---|
Aerial view of the Kajaki Dam in 2004
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| Country | Afghanistan |
| Location | Kajaki District, Helmand Province |
| Coordinates | Lua error in package.lua at line 80: module 'strict' not found. |
| Purpose | Irrigation and electricity |
| Status | Operational |
| Construction began | 1951 |
| Opening date | 1953 |
| Owner(s) | Afghan Ministry of Energy and Water |
| Dam and spillways | |
| Impounds | Helmand River |
| Height | 100 m (328 ft) |
| Length | 270 m (886 ft) |
| Reservoir | |
| Total capacity | 1,715×106 m3 (1,390,373 acre·ft) |
| Active capacity | 1,134×106 m3 (919,349 acre·ft) |
| Power station | |
| Operator(s) | Helmand and Arghandab Valley Authority (HAVA) |
| Commission date | 1975 |
| Turbines | 2 x 16.5 MW Francis-type[1] |
| Installed capacity | 33 MW |
The Kajakai Dam is one of the two major hydroelectric power dams of Helmand province in southern Afghanistan. The dam is located on the Helmand River 100 miles (161 km) north-west of Kandahar and is operated by the Helmand and Arghandab Valley Authority. It has a dual function, to provide electricity and to irrigate some 650,000 acres (1800 km²) of an otherwise arid land. Water discharging from the dam traverses some 300 miles (500 km) of downstream irrigation canals feeding farmland. It currently produces 33 megawatts of electricity.[2]
The dam is 100 m (328 ft) high and 270 m (890 ft) long, with a gross storage capacity of 1,715,000,000 m3 (1,390,373 acre·ft) of water. The dam controls the output of the main watershed which feeds the Sistan Basin.
Contents
History
Final studies for the dam began in 1946 and a preliminary design was crafted in 1950. The dam was built between 1951 and 1953 by the Morrison-Knudsen firm as part of the Helmand Valley Authority project.[3]
In 1975, USAID commissioned the initial installation of two 16.5 MW generating units in a powerhouse constructed at the toe of the dam. This first stage powerhouse was actually constructed to house three equally sized units. Only units 1 and 3 were installed originally.[3]
When the Soviets invaded Afghanistan in 1979 the contractors left. They had intended to raise the dam by 2 meters in order to increase the available water for power production and irrigation. They were also excavating an emergency spillway which was never completed. Gates were also never installed in the service spillway so the dam passes all water in the reservoir above elevation 1033.5 meters. Completion of the spillway gates would increase the total storage capacity of the reservoir by 1,010,000,000 m3 (818,820 acre·ft) to 2,725,000,000 m3 (2,209,193 acre·ft).[3]
The Kajaki dam powerhouse was a bombing target of the US Air Force during their attack on Afghanistan in October 2001.[4]
With funding from USAID, World Bank and other donors, Units 1 & 3 have been fully rehabilitated and the power station currently has an installed capacity of 33 MW.[5] Unit 1 was operational in September 2005 and Unit 3 in October 2009.[6] The Unit 3 rehabilitation began in May 2006, with a scheduled return to service in early 2007. The new 18.5 MW Unit 2 turbine/generator has been contracted to China Machine Building International Corporation, which is headquartered in Beijing. Engineering, design and procurement are ongoing. The work will be supervised by Montgomery Watson Harza and was planned to be completed by June 2007.
In February 2007, the Kajakai Dam was the subject of fighting between NATO and Taliban insurgents, as part of Operation Kryptonite.[7] According to the governor of Helmand province, Assadullah Wafa, over 700 Taliban insurgents (including Pakistanis, Chechens and Uzbeks) coming from neighboring Pakistan fought against over 300 NATO troops.[8] Most of the NATO troops were Dutch and British. The number of casualties mentioned varies. The insurgents intended to destroy the dam.[9]
Expansion plans
Central to the long term energy security and sustained economic growth of south-eastern Afghanistan is the rehabilitation and expansion of the Kajakai HPP. As a critical component of the South East Transmission System, the capacity of the Kajakai HPP will be expanded to 51 MW with a future potential for an additional 100 MW.
The Third Turbine
In late August 2008 a contingent of ISAF and Afghan troops successfully transported the third turbine from Kandahar to the Kajakai Dam. The operation was British led and codenamed Operation Oqab Tsuka, meaning "Eagle's Summit" in Pashto.[10] Despite the turbine being delivered onsite, over 7 years later in September 2015 it has still not been installed, as its installation requires 700 tonnes of cement which cannot be delivered to the dam due to attacks by the Taliban.[11]
A BBC report on the unassembled and uninstalled turbine in June 2011 estimated project completion in late 2013.[12] In February 2015, USAID anticipated completion in 2016.[13] When the turbine comes online, and when a new grid of power lines are established to distribute the power, it is expected that the dam will be able to provide 51 megawatts of power.[14]
Refurbishment by the U.S. Army Corps of Engineers
The United States Army Corps of Engineers (USACE) has several concurrent project plans associated with the Kajaki Dam with a total program amount of approximately $205 million. Together, the projects will improve water flow for irrigation and electric power generation. The first phase will repair the dam's intake structure. The gates currently do not close, so no maintenance can be performed on the gates or the irrigation outlet tunnels.
The project includes the rehabilitation of existing intake structure components—intake bulkhead gate, steel sliding gate, crane, crane hoist assembly, lifting assembly, embedded parts, and hydrology gage.
The second phase will rehabilitate the three 84-inch roto valves inside the irrigation tunnel and three 84-inch jet valves at the outlet end of the irrigation tunnel. A roto valve is designed to open and close relatively easily, despite high fluid pressure. Jet valves are installed as part of the outlet structure, and decrease the pressure of the water exiting the bottom of the dam, which prevents erosion and scouring. Another part of the project is to evaluate the current condition of inoperable piezometers at the dam and seek bids to repair or replace them.
South East Power System (SEPS)
This two-phased project promises to improve access to electric power for residents of Helmand and Kandahar provinces. The SEPS—Helmand phase includes rebuilding the Kajaki Substation; replacing the 20kV line from the Kajaki Substation to Tangi; a new switchyard at Tangi; a new substation at Musa Qal'eh; a new 110kV line from Kajaki Substation to Musa Qal'eh Substation; a new 20kV line from Kajaki Substation to Kajaki Village, and the rebuilding of a 110kV line from Kajaki Substation to Sangin.
The project also includes rebuilding the Sangin North Substation, a new substation at Sangin South, rebuilding a 110kV line from Sangin to Durai Junction, and rebuilding a 110kV line from Durai Junction to Lashkar Gah. USACE awarded the project on June 22 to Perini Management Services, Inc. of Framingham, Mass., with a 550-day period of performance.
The SEPS-Kandahar project includes repairing an existing 110kV line from Durai Junction to Kandahar City, constructing new substations at Maiwand and Pushmool, and upgrading substations at Breshna Kot.
These projects should improve distribution of electrical power to the people of the Lashkar Gah area in Helmand province, and the Kandahar City area.[15]
Water supply accord
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Under a monarchy-era accord signed between Iran and Afghanistan in 1972, Afghanistan agreed to release water at a rate of at least 910 cubic feet per second (26 m3/s). In 1998, when Iran threatened to attack in retaliation for the killing of Iranians who were claimed to be diplomats in Mazari Sharif when the Taliban retook that city from the Northern Alliance the second time, the Taliban briefly stopped the flow of water to Iran, using a canal to divert the Helmand's flow southward into the Gowd Zerrah Depression. During that time the Helmand valley was going through a five-year drought. As a result, Iran's Hamun-e Helmand lake dried up, as did regional pastures, leading to the death of flora, fauna, cattle and birds in the Sistan and Baluchestan Province of Iran.[16]
See also
- List of dams and reservoirs in Afghanistan
- List of rivers of Afghanistan
- Water supply in Afghanistan
References
This article incorporates public domain material from the United States Army document "Corps of Engineers to improve access to water, power in southern Afghanistan".
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ 3.0 3.1 3.2 Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Kajakai list as October 31, 2002 aerial bombing location
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Taliban flee battle using children as shields - NATO, February 14, 2007
- ↑ US defense secretary in Pakistan, February 12, 2007
- ↑ Hundreds of Taliban massing to attack dam - official
- ↑ British Troops Complete Operation to Deliver Turbine
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ UK Troops in Huge Turbine Mission
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Hirmand River's water to flow into Iran again, soon: Afghan source, December 12, 2002
External links
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Wikimedia Commons has media related to Kajaki Dam. |
- Pages with broken file links
- Wikipedia articles incorporating text from the United States Army
- Wikipedia articles incorporating text from public domain works of the United States Government
- Commons category link is defined as the pagename
- Helmand River
- Dams in Afghanistan
- Hydroelectric power stations in Afghanistan
- Rock-filled dams
- Dams completed in 1953
- 1953 establishments in Afghanistan
- Energy infrastructure completed in 1975
