Bosporus Water Tunnel

(Redirected from Bosporus aqueduct)

The Bosphorus Water Tunnel (Turkish: Boğaziçi Su Tüneli) or Bosporus aqueduct is an undersea aqueduct in Istanbul, Turkey, crossing the Bosphorus strait. It was constructed in 2012 to transfer water from the Melen Creek in Düzce Province to the European side of Istanbul.[1]

Bosphorus Water Tunnel
Boğaziçi Su Tüneli
Overview
LocationOrtaçeşme (Beykoz) to Derbent (Sarıyer) under the Bosphorus strait in Istanbul, Turkey
Coordinates41°07′39″N 29°04′52″E / 41.12760°N 29.08098°E / 41.12760; 29.08098
WaterwayMelen System (Melen Creek and tunnels)
Operation
Work begun2007
Opened19 May 2012
Technical
Length5,551 m (18,212 ft)

Need for the aqueduct

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With a population of about 15 million, Istanbul is trying to secure its citizens' access to drinking water. Most clean water in Turkey (and, consequently, Istanbul) is located on the Asian borders of the country. Therefore, it is difficult to bring water to Istanbul's Asian side with hundreds of kilometres of pipelines, and another challenge to bring water to the European side of Istanbul with a tunnel dug 85 metres under the sea bed (145 metres under the sea surface) atop an active fault.

Commissioning and finance

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The tunnel was commissioned by the Ministry of Forest and Water Management and constructed by an international consortium of Russian and Turkish companies (Mosmetrostroy, ALKE and STFA). The Melen Water Supply Project was funded mainly by JBIC (Japanese Bank for International Cooperation) and partly by DSI (State Hydraulic Works).

Construction

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There were two phases to the project: the underwater-tunnel phase and the land-tunnel phase. The underwater phase was done by the TBM (tunnel boring machine) method, and the land part by blasting. The TBM-drilling part of the project was complete in March 2009 and a ceremony was held, with the attendance of ministers, bureaucrats, Russian diplomats and Kadir Topbaş, the mayor of Istanbul. The TBM is specially designed and constructed for this project by the German firm Herrenknecht, and is six metres in diameter. The average advancing speed of the TBM during the project was 8 m (26 ft) per day, with a maximum speed of 20.4 metres per day. After the tunneling works are finished, the tunnel is being lined by prefabricated concrete segments, after which come nine-metre-long steel pipes with an inside diameter of four metres.[2]

Infrastructure

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The tunnel is 136 m (446 ft) under the sea level, resisting a pressure of 14 bar (200 psi). It is a steel tube of 4 m (13 ft) in diameter, which is inside a hard-rock type tunnel of 6 m (20 ft) in diameter, bored with high-technology machinery. Situated between Ortaçeşme (Beykoz) and Derbent (Sarıyer) under the Bosphorus, the 5,551 m (3.449 mi) long waterway tunnel has a water flow rate of 32.5 m3/s (1,150 cu ft/s).[1]

Being the first stage of the Melen System that cost 2 billion TL, the waterway tunnel was constructed in 1,756 days and completed on 19 May 2012 without any accident. It will transfer a daily rate of 2.8 million m3 of water, which is two and half times higher than Istanbul's current water consumption. The Melen System will bring the water of the Melen Creek in Düzce Province from a distance of 185 km (115 mi), and will ensure the needed water supply for Greater Istanbul until the 2060s.[1][3]

It is the first tunnel connecting two continents.

There is a large railway project which will connect both sides of Istanbul as well, but it will be through submerged tubes placed on the sea bed and not by tunnelling.[4]

See also

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References

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  1. ^ a b c "Melen hattı Boğaz'ı geçti" [Melen line crossed the Bosphorus]. CNN Türk (in Turkish). 2012-05-21. Retrieved 2012-06-11.
  2. ^ "Herrenknecht Melen 7 project". www.herrenknecht.com. Retrieved January 29, 2011.
  3. ^ Nayır, Mehmet (2012-05-19). "Melen Boğaz'ı geçiyor" [Crossing the Melen Bosphorus]. Sabah Ekonomi (in Turkish). Retrieved 2012-06-11.
  4. ^ "STFA". Archived from the original on 2011-10-13. Retrieved 2011-01-29. "Asia and Europa With a Water Conveyance Tunnel". Accessed January 29, 2011.