Central Yunnan Water Diversion Project

The Central Yunnan Water Diversion Project (Chinese: 滇中引水工程; pinyin: Diānzhōng yǐnshuǐ gōngchéng) is a large-scale civil engineering project under construction that will allow water from the Jinsha River near Lijiang to be transported to Central Yunnan. The total length of the water channels will be 664 km (413 mi), of which 612 km (380 mi) will be in tunnels.[1]

Map of the project
Construction Administration of Central Yunnan Water Diversion Project

The project has a cost of US$ 12.03 billion, largely funded by the Ministry of Water Resources. It is planned for completion by 2026.[1][2]

Background

edit
 
Photo of Kunming, Lake Dian, and Fuxian Lake taken from the ISS. The Lake Dian basin is most affected by water scarcity within the project's scope.[3]

Central Yunnan is a region in China where, currently, only 700 m3 (180,000 U.S. gal) of water is available per capita annually, compared to a 1,700 m3 (450,000 U.S. gal) recommended minimum.[1][3] At the same time, Central Yunnan accounts for 68% of Yunnan's GDP. The region has suffered from long drought spells, such as a period of 30 months without heavy rains in Kunming.[4] Water scarcity has been described as the "biggest bottleneck restricting the sustainable development of Central Yunnan." The idea of diverting water from the Jinsha River to Central Yunnan was first proposed by Yunnan's vice-governor Zhang Chong in the 1950s.[3]

The water diversion project was included in the Thirteenth Five-Year Plan.[4] In April 2017, it was approved by the State Council.[3]

Construction

edit

The project will include the world's longest water tunnel, the world's largest underground pump room, and largest pump capacity in Asia. In addition, it deals with challenging geological conditions due to passing through a number of faults.[5] It crosses the four major watersheds of Yunnan: that of the Jinsha River, Mekong, Red River, and Nanpan River, as well as crossing the Hengduan Mountains in northwest Yunnan.[3]

Construction commenced on 4 August 2017, with a planned construction time of 8 years.[6] The project includes 58 tunnels with a total length of 612 km (380 mi), 25 inverted siphons, 17 aqueducts, and 15 culverts.[7]

Impact

edit

Once completed, the project would improve water availability for 11 million people, spread over 35 counties in Yunnan and a total area of 36,900 km2 (14,200 sq mi).[1][8] Over 3.403 m3 (899 U.S. gal) billion of water would be transported through the channels annually by 2040. This water will be used for domestic and industrial water supply (2.231 m3 (589 U.S. gal) million), agricultural water supply (500 m3 (130,000 U.S. gal) million), as well as for improving the ecology of lakes in the region (672 m3 (178,000 U.S. gal) million).[7][9]

Since the inlet at the Jinsha River does not include a dam structure, the impact on the source river is expected to be small.[3]

The project is seen as a demonstration project for a future Tibet to Xinjiang water diversion project.[10]

See also

edit
edit

References

edit
  1. ^ a b c d "China's Largest Water Diversion Project under Construction Makes Key Progress". en.sasac.gov.cn. Retrieved 2022-03-26.
  2. ^ 张文芳. "Water project to quench thirsty cities in Yunnan". www.chinadaily.com.cn. Retrieved 2022-03-26.
  3. ^ a b c d e f 张勇 (2017-08-07). "滇中引水工程解水资源匮乏难题". 光明日报.
  4. ^ a b "筑千里水脉 解云南之"渴"——滇中引水工程建设纪实-新华网". www.xinhuanet.com. Retrieved 2022-03-29.
  5. ^ "A major breakthrough has been made in the Yunnan water delivery project". Seetao. 2022-02-28.
  6. ^ CWRC (2022). Report on Yangtze River Rehabilitation and Protection 2019. Springer Nature. ISBN 978-981-16-4927-1.
  7. ^ a b "【图片故事】劳动者风采:滇中引水工程隧洞里的建设者". m.yunnan.cn. Retrieved 2022-03-29.
  8. ^ "China completes its largest TBM". Trenchless Australasia. Retrieved 2022-03-26.
  9. ^ "「滇中引水」先行 再挖「千里隧道」調西藏水源至新疆". ETtoday (in Traditional Chinese). 2017-11-03. Retrieved 2022-03-29.
  10. ^ Balachandran, Manu. "China's planning a 1,000km tunnel to divert water away from one of India's largest rivers". Quartz. Retrieved 2022-03-26.