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Jinping-II Dam

Coordinates: 28°14′54.02″N 101°38′39.94″E / 28.2483389°N 101.6444278°E / 28.2483389; 101.6444278
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Jinping-II Dam
Jinping-II Dam is located in Sichuan
Jinping-II Dam
Location of Jinping-II Dam in Sichuan
Jinping-II Dam is located in China
Jinping-II Dam
Jinping-II Dam (China)
Official nameJinping-II Hydropower Station
LocationYanyuan County and Muli Tibetan Autonomous County, Sichuan, China
Coordinates28°14′54.02″N 101°38′39.94″E / 28.2483389°N 101.6444278°E / 28.2483389; 101.6444278
PurposePower
StatusOperational
Construction began2007
Opening date2014
Owner(s)Yalong River Hydropower Development Company, Ltd.
Operator(s)MWREP
Dam and spillways
ImpoundsYalong River
Height37 m (121 ft)
Length162 m (531 ft)
Reservoir
CreatesJinping-II Reservoir
Total capacity14,280,000 m3 (11,580 acre⋅ft)
Active capacity5,020,000 m3 (4,070 acre⋅ft)
Catchment area102,663 km2 (39,638 sq mi)
Jinping-II Hydropower Station
Coordinates28°08′17.05″N 101°47′31.30″E / 28.1380694°N 101.7920278°E / 28.1380694; 101.7920278
Commission date2012–2014
Hydraulic head310 m (1,020 ft)
Turbines8 × 600 MW Francis-type
Installed capacity4,800 MW

The Jinping-II Dam (simplified Chinese: 锦屏二级水电站; traditional Chinese: 錦屏二級水電站; pinyin: Jǐnpíng Èrjí Shuǐdiàn Zhàn), also known as the Jinping-II Hydropower Station, is a gravity dam on the Jinping Bend of the Yalong River (Yalong Jiang) in Sichuan, China. Construction on the project began in 2007 and it was complete in 2014. Its hydroelectric power station has a 4,800 MW installed capacity.

While Jinping-I relies on a conventional tall dam and large reservoir to supply water, Jinping-II uses a much smaller dam, located 7.5 km downstream of Jinping-I, to divert water into four 16.6 km long headrace tunnels. These tunnels connect to a downstream point on the same river at a much lower elevation, providing a 310 m (1,020 ft) head of water[1] without flooding a large area of land.

History

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Harnessing hydropower on the Jinping Bend of the Yalong River has been in planning for decades. The river makes a hairpin bend 150 km long around the Jinping Mountains, but the downstream part of the river on the opposite side of the mountain is separated by only 16 km. In that distance, there is an elevation drop of 310 m, creating an excellent situation for hydroelectricity production. Two projects were planned for the bend, the Jinping I and Jinping II with a combined capacity of 8,400 MW. Planning for the projects began in the 1960s under the former Sichuan and Shanghai design institutes along with the Ministry of Water Resources and Electric Power. They produced the "Reinvestigation Report on The Yalong River bend (Jinping)". In July 1965, the Jinping Hydropower Engineering Headquarters was set up and designs for the Jinping 1 and Jinping 2 would progress with the East China Investigation and Design Institute .[2]

Construction on the Jinping-II started on January 30, 2007.[3] The dam's first generator was commissioned in December 2012, the second in January 2013.[4] The fifth generator went online in May 2014 and the seventh in October 2014.[5][6] Jinping-I was fully commissioned by July 2014 and the eighth and final generator for Jinping-II was commissioned on 26 November 2014.[7]

Characteristics

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A 37 m tall, 162 m long sluice dam on the west-side of the Jinping bend diverts water into four 16.6 km long headrace tunnels towards the power station. At the power station, the water turns eight 600 MW Francis turbines with a total capacity of 4800 MW before being discharged back into the river.

About 30% of the power from the Jinping dams is used locally, and 70% will be sent to eastern China via ±800 kV bipolar HVDC transmission lines.[8]

In addition to the four headrace tunnels, two roadway tunnels (A and B) were constructed with a diameter of 6 m (20 ft), and a drainage tunnel 7.2 m (24 ft) in diameter. These were all constructed by drilling and blasting, as were headrace tunnels #2 and #4, with a diameter of 13 m (43 ft). Headrace tunnels #1 and #3, with a diameter of 12.4 m (41 ft), were excavated by tunnel boring machine.[9]

See also

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References

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  1. ^ Shiyong, Wu; Manbin, Shen; Jian, Wang (August 2010). "Jinping hydropower project: main technical issues on engineering geology and rock mechanics" (PDF). Bulletin of Engineering Geology and the Environment. 69 (3): 325–332. Bibcode:2010BuEGE..69..325S. doi:10.1007/s10064-010-0272-4. S2CID 55366125. Water is directed through the mountains in four 16.7 km long, c. 13 m diameter tunnels, beneath up to 2,525 m of overburden, to the Jinping II underground powerhouse where the head is 310 m.
  2. ^ The Big River Bend and The "Jinping Dream"
  3. ^ 雅砻江最大水电站锦屏二级水电站30日正式开工 [Yalong largest hydropower Jinping Hydropower Station on the 30th officially started] (in Chinese). Xinhua. January 30, 2007. Archived from the original on June 9, 2011.
  4. ^ 光伏再获重大政策扶持 12股迎重大拐点 (in Chinese). 591hx. May 3, 2013. Archived from the original on March 3, 2016. Retrieved May 6, 2013.
  5. ^ 国投电力:锦屏二级水电站5号机组已经投产,为何不见公告? [SDIC Electric Power: Jinping Hydropower Station on the 5th unit has been put into operation, why not see the announcement?] (in Chinese). Caixin Media. May 15, 2014. Retrieved May 28, 2014.
  6. ^ [公司]国投电力锦屏二级电站7号机组投产 [SDIC Electric Power Jinping Power on the 7th unit production] (in Chinese). Sina Finance. October 31, 2014. Retrieved November 19, 2014.
  7. ^ ""West to East" backbone project Jinping Power All units put into operation" (in Chinese). 26 November 2014. Retrieved January 7, 2015.
  8. ^ Shiyong, Wu; Manbin, Shen; Jian, Wang (March 30, 2010), "Jinping hydropower project: main technical issues on engineering geology and rock mechanics" (PDF), Bulletin of Engineering Geology and the Environment, 69 (3): 325–332, Bibcode:2010BuEGE..69..325S, doi:10.1007/s10064-010-0272-4, S2CID 55366125
  9. ^ Wu, Shiyong; Wang, Ge (December 25, 2011). "Rock mechanical problems and optimization for the long and deep diversion tunnels at Jinping II hydropower station". Journal of Rock Mechanics and Geotechnical Engineering. 3 (4): 314–328. Bibcode:2011JRMGE...3..314W. doi:10.3724/SP.J.1235.2011.00314.