Langbahn Team – Weltmeisterschaft

Tumut Two Dam

Tumut Two Dam
Tumut Two Dam is located in New South Wales
Tumut Two Dam
Location of Tumut Two Dam in
New South Wales
CountryAustralia
LocationSnowy Mountains, New South Wales
Coordinates35°55′54″S 148°21′04″E / 35.93167°S 148.35111°E / -35.93167; 148.35111
PurposeHydro-power, diversion, irrigation
StatusOperational
Opening date1961
Owner(s)Snowy Hydro
Dam and spillways
Type of damGravity dam
ImpoundsTumut River
Height46 m (151 ft)
Length119 m (390 ft)
Dam volume48 m3 (1,700 cu ft)
Spillways1
Spillway capacity2,152 m3/s (76,000 cu ft/s)
Reservoir
CreatesTumut Two Reservoir
Total capacity2,677 ML (94.5×10^6 cu ft)
Catchment area396 km2 (153 sq mi)
Surface area182 ha (450 acres)
Power Station
Operator(s)Snowy Hydro
Commission date1962
TypeConventional
Hydraulic head292.6 m (960 ft)
Turbines4
Installed capacity286 MW (384,000 hp)
Annual generation787 GWh (2,830 TJ)

Tumut Two Dam or Tumut Two (/ˈtjmət/)[1] is a major ungated concrete gravity dam across the upper reaches of the Tumut River in the Snowy Mountains of New South Wales, Australia. The dam's main purpose is for the generation of hydro-power and is one of the sixteen major dams that comprise the Snowy Mountains Scheme, a vast hydroelectricity and irrigation complex constructed in south-east Australia between 1949 and 1974 and now run by Snowy Hydro.

The impounded reservoir is called the Tumut Two Reservoir, or less formally, the Tumut Two Pondage.

Location and features

Completed in 1961, Tumut Two Dam is a major dam, located approximately 3 kilometres (1.9 mi) west of Cabramurra. The dam was constructed by a consortium comprising Kaiser-Walsh-Perini-Raymond based on engineering plans developed by the Snowy Mountains Hydroelectric Authority and the United States Bureau of Reclamation under contract from the Snowy Mountains Hydroelectric Authority.[2]

The dam wall comprising 48 cubic metres (1,700 cu ft) of concrete is 46 metres (151 ft) high and 119 metres (390 ft) long. At 100% capacity the dam wall holds back 2,677 megalitres (94.5×10^6 cu ft) of water. The surface area of Tumut Two Reservoir is 182 hectares (450 acres) and the catchment area is 396 square kilometres (153 sq mi). The spillway is capable of discharging 2,152 cubic metres per second (76,000 cu ft/s).[2][3]

Power generation

Downstream of the dam wall and located underground is Tumut 2, a conventional hydroelectric power station, that has four turbine generators, with a generating capacity of 286 megawatts (384,000 hp) of electricity; and a net generation of 787 gigawatt-hours (2,830 TJ) per annum. The power station has 262.1 metres (860 ft) rated hydraulic head. The underground powerhouse is located 244 metres (801 ft) below ground level.[4]

Tumut Two Reservoir

Tumut Two Reservoir or Tumut Two Pondage (sometimes also Tumut 2 Reservoir/Tumut 2 Pondage) is formed by the Tumut Two Dam. Snowmelt and other runoff enter the reservoir from the upper Tumut River and the dam impounds the river's natural flow above the Tumut Pond Dam wall and the Tumut Pond Reservoir.

Water from the reservoir, after passing over the spillway of the Tumut Pond Dam, flows downstream, above the underground Tumut 1 Power Station, and into the impounded waters of Talbingo Reservoir, formed by the Talbingo Dam; past Tumut 3 Power Station, into Jounama Pondage, formed by Jounama Dam; and then into Blowering Reservoir, formed by Blowering Dam, passing through Blowering Power Stations. The natural flow of the Tumut River continues into the Riverina region.

See also

References

  1. ^ Macquarie Dictionary (4th ed.). Melbourne: The Macquarie Library Pty Ltd. 2005. ISBN 1-876429-14-3.
  2. ^ a b "Register of Large Dams in Australia". Dams information. The Australian National Committee on Large Dams Incorporated. 2010. Archived from the original (Excel (requires download)) on 12 December 2013. Retrieved 8 May 2013.
  3. ^ "Dams". Snowy Mountains Scheme. Snowy Hydro. Archived from the original on 3 May 2013. Retrieved 22 April 2012.
  4. ^ "Tumut-2 Hydroelectric Power Station Australia". Global Energy Observatory. 11 May 2012. Retrieved 8 May 2013.