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Okutadami Dam

Coordinates: 37°09′12″N 139°15′00″E / 37.15333°N 139.25000°E / 37.15333; 139.25000
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Okutadami Dam
Okutadami Dam is located in Japan
Okutadami Dam
Location of Okutadami Dam in Japan
CountryJapan
LocationUonuma
Coordinates37°09′12″N 139°15′00″E / 37.15333°N 139.25000°E / 37.15333; 139.25000
Construction began1953
Opening date1961
Owner(s)Electric Power Development Company
Dam and spillways
Type of damGravity
ImpoundsTadami River
Height157 m (515 ft)
Length475 m (1,558 ft)
Dam volume1,636,000 m3 (2,139,807 cu yd)
Reservoir
CreatesLake Okutadami
Total capacity601,000,000 m3 (487,239 acre⋅ft)
Active capacity458,000,000 m3 (371,307 acre⋅ft)
Catchment area595 km2 (230 sq mi)
Surface area1,150 ha (2,842 acres)[1]
Normal elevation750 m (2,461 ft)
Power Station
Commission date1960, 2003
Hydraulic head120 MW units: 170 m (558 ft)
200 MW unit: 164.2 m (539 ft)
Turbines3 x 120 MW, 1 x 200 MW Francis-type
Installed capacity560 MW

The Okutadami Dam (おく只見ただみダム) is a concrete gravity dam on the Tadami River, 26 km (16 mi) east of Uonuma on the border of Niigata and Fukushima Prefectures, Japan. The primary purpose of the dam is hydroelectric power generation and it supports a 560 MW power station which is the largest conventional hydroelectric power station in Japan.[2] The dam also forms the second largest reservoir in Japan, next to that of the Tokuyama Dam.[3]

Background

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Construction on the dam began and its original 390 MW power station was commissioned 2 December 1960. The rest of the project was complete in 1961. Between 1999 and 2003, the power station was expanded, adding 200 MW in installed capacity. In addition, a 2.7 MW generator was added to ensure a flow of 2.5 m3/s (88 cu ft/s) downstream for environmental purposes.[2] Along with the same power plant upgrade, a second Kaplan turbine-generator was added to the 83 m (272 ft) tall Otori Dam's power station downstream at 37°12′53″N 139°12′50″E / 37.21472°N 139.21389°E / 37.21472; 139.21389 (Otori Dam). This generator has an 87 MW capacity in addition to the existing 95 MW unit, for an installed capacity of 182 MW.[4]

36 houses were submerged.

Design

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The Okutadami Dam is a 157 m (515 ft) tall and 475 m (1,558 ft) long concrete gravity dam with a structural volume of 1,636,000 m3 (2,139,807 cu yd). Sitting at the head of a 595 km2 (230 sq mi) catchment area, the dam creates a reservoir with a 601,000,000 m3 (487,239 acre⋅ft) capacity of which 458,000,000 m3 (371,307 acre⋅ft) is active (or "useful") storage. The reservoir has a surface area of 1,150 ha (2,842 acres). The power station is underground and located on the right bank of the river next to the dam's abutment. It consists of two caverns, one for the original power station and another adjacent for the expansion. After being received by the dam's intake, water supplied to the original power plant travels down three penstocks 185–189 m (607–620 ft) in length before reaching an individual 120 MW Francis turbine-generator. The 200 MW Francis turbine-generator receives water via a 280 m (919 ft) long penstock. After water is processed through the generators, it travels down two tailrace tunnels before being discharged over 3 km (2 mi) downstream at the upstream edge of the Otori Reservoir.[5]

Access

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Minami Echigo Kankō Bus ( Okutadami Dam Line and Express Okutadami Dam Line )

Aizu Bus (Nakayama Tōge and Oze Line - No.011)[7]

References

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  1. ^ "Okutadami Dam". Japan Dam Handbook. Retrieved 14 August 2011.
  2. ^ a b "Start of Commercial Operation of the Okutadami (Extension) and Otori (Extension) Hydropower Plants and of the Okutadami-dam Ecological Flow Hydropower Plant" (PDF). J-Power. Retrieved 14 August 2011.
  3. ^ "Dam Okutadami" (in Japanese). DamMania. 7 June 2004. Retrieved 14 August 2011.
  4. ^ Sato, Asami; Keiichi Got0. "Commissioning of 87,000-kW Kaplan Turbine and Generator for Otori Power Statio" (PDF). Hitachi. Retrieved 14 August 2011.{{cite web}}: CS1 maint: numeric names: authors list (link)
  5. ^ "Case study 01-02: Biological Diversity - Okutadami and Ohtori Expansion Hydropower Project, Japan" (PDF). IEA Hydropower Implementing Agreement Annex VIII: Hydropower Good Practices: Environmental Mitigation Measures and Benefit. New Energy Foundation. 2006. Archived from the original (PDF) on 3 October 2011. Retrieved 14 August 2011.
  6. ^ Commercialized this route by Tobu Railway
  7. ^ Reservation system bus
  8. ^ Commercialized this route by Tobu Railway