Burrinjuck Dam

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Burrinjuck Dam
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Burrinjuck Dam, under construction, in 1911.
Burrinjuck Dam is located in New South Wales
Burrinjuck Dam
Location of the Burrinjuck Dam
in New South Wales
Country Australia
Location South West Slopes, New South Wales
Coordinates Lua error in package.lua at line 80: module 'strict' not found.
Status Operational
Construction began 1907
Opening date 1928
Owner(s) State Water Corporation
Dam and spillways
Type of dam Gravity dam
Impounds Murrumbidgee River
Height 93 m (305 ft)
Length 233 m (764 ft)
Dam volume 394 m3 (13,900 cu ft)
Spillways 3
Spillway type Three sector gates with two side channel spillways
Spillway capacity 29,100 m3/s (1,030,000 cu ft/s)
Reservoir
Creates Lake Burrinjuck
Total capacity 1,026 gigalitres (3.62×1010 cu ft)
Catchment area 12,953 km2 (5,001 sq mi)
Surface area 5,500 ha (14,000 acres)
Max. water depth 72 m (236 ft)
Power station
Operator(s) Snowy Hydro
Turbines 1
Installed capacity 28 megawatts (38,000 hp)
Annual generation 24.5 gigawatt-hours (88 TJ)
Website
Burrinjuck Dam at www.statewater.com.au

Burrinjuck Dam is a major gated concrete-walled gravity dam with three spillways across the Murrumbidgee River located in the South West Slopes region of New South Wales, Australia. The dam's purpose includes flood mitigation, hydro-power, irrigation, water supply and conservation. The impounded reservoir is called Lake Burrinjuck.

Location and features

Commenced in 1907, completed in 1928, and upgraded in 1957 and 1994, the Burrinjuck Dam is a major ungated dam, located approximately 60 kilometres (37 mi) south-west of Yass. The dam was built by the New South Wales Water, Conservation & Irrigation Commission and the NSW Department of Public Works for town water supplies, river flows and domestic requirements, irrigated agriculture, industry, flood mitigation and environmental flows.[1][2][3][4] The Yass and Goodradigbee rivers also flow into the dam. Together with releases from Blowering Dam, on the Murrumbidgee River, Burrinjuck Dam also provides a regulated flow of water for the Coleambally and Murrumbidgee Irrigation Areas. The dam divides the upper and lower catchment of the Murrumbidgee River[5] and is the headwater storage for the Murrumbidgee Irrigation Area.[2]

The dam wall constructed with 394 cubic metres (13,900 cu ft) of concrete is 91 metres (299 ft) high and 233 metres (764 ft) long. The maximum water depth is 61 metres (200 ft) and at 100% capacity the dam wall holds back 1,028,000 megalitres (36,300×10^6 cu ft) of water at 361 metres (1,184 ft) AHD. The surface area of the Lake Burrinjuck Reservoir is 5,500 hectares (14,000 acres) and the catchment area is 12,953 square kilometres (5,001 sq mi). The three sector gates plus two side channel spillways are capable of discharging 29,100 cubic metres per second (1,030,000 cu ft/s).[2][3][4]

Power generation

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Main article: Burrinjuck Power Station

The dam houses a hydroelectric power station and has one turbine generator, with a generating capacity of 28 megawatts (38,000 hp) of electricity; with a net generation of 24.5 gigawatt-hours (88 TJ) per annum.

Concept

The pastoralist Samuel McCaughey accumulated hundreds of thousands of hectares in the Riverina after owning his first property in 1864.[6] He had an interest in water conservation that led him to construct a series of irrigation channels and steam pumps that were critical to the rice-growing activities in the area at the turn of the century. The New South Wales government liked his ideas so much they agreed to build a larger dam.[6]

History

Initial construction

File:Goondah.jpg
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File:Cable tram trailer (4312109973).jpg
Car built for the railway

Construction commenced in 1907. Prior to about February 1911, the dam was known as Barren Jack, a corruption of the Aboriginal name of the locality.[7][8] A 2 ft (610 mm) narrow gauge railway was constructed from the New South Wales Government Railways' Main Southern Line at Goondah to bring materials to the site.[9][10] The railway was about 45 kilometres (28 mi) long, had a grade of 1 in 30 and some 90 foot-radius curves and took about 2 hours and 20 minutes to traverse.[11]

Delays were experienced throughout the construction period. Problems were found in part of the foundations of the dam wall in 1911, which led to a 12-month delay in completion of the first stage of the construction works.[12][13] Delays were caused by World War I, construction of extensions to the spillways, and the fact that deep foundations were necessary.[14]

Flooding in July 1922 filled the reservoir to the record height of 1,178 feet (359 m) above sea level, or 198 feet (60 m) above the bed of the Murrumbidgee River at the dam wall.[15] The flood waters tore through the unfinished southern spillway and fell 200 feet (61 m) to the river below, resulting in a massive fog which one journalist compared to that of Niagara Falls.[15] The flood water came within 2 feet (0.61 m) of spilling into the finished northern spillway,[15][16] which was being used as a storage site for sand and granite used in the dam's construction. Had the water entered the northern spillway, the construction materials, worth £25,000, would have been swept away.[15]

Another major flood in May 1925 far exceeded all previously recorded floods and resulted in the dam wall being overtopped to a depth of 1 metre (3 ft 3 in).

Due to World War I, the dam was not completed until 1928. At the end of 1927, £1,712,730 had been spent on construction work, excluding the cost of the hydroelectric facilities.[14][16]

Enlargement and remedial works

In 1937, it was discovered that the dam had developed a structural weakness that required remedial action. The weakness was not due to a design flaw per se; rather it was due to strains and stresses that were not scientifically understood at the time the dam was designed.[17] The State Government brought in dam engineering expert Professor P.G. Hornell from Sweden to report on the defects that had developed in the dam.[18]

Apparently there were real fears of the dam wall bursting, so detailed plans were prepared for the evacuation of 20,000 people in the Murrumbidgee basin downstream of the dam in the event that the dam wall failed.[19][20] The State Government played down these fears and felt that the evacuation plans would never have to be used.[20] In the event of a catastrophic failure of the dam wall, it was anticipated that flood waters would reach Jugiong within an hour, Gundagai within 90 minutes, Wagga Wagga in six hours and Narrandera in 22 hours. Arrangements were made with police, the New South Wales Government Railways, the postal service, military and air force officials, radio stations, boat operators and local committees to be put into effect at a moments' notice.

Remediation work was carried out between 1937 and 1957. The remediation work was authorised by the NSW Cabinet around January 1939, and at the time was anticipated to cost more than £1,000,000.[21] The first stage of remediation works involved lowering the dam wall by 10–15 feet (3.0–4.6 m) and was estimated in 1937 to cost approximately £100,000.[22]

In 1941, the State Government appointed a committee to estimate the probability of the dam flooding. This flood probability was used by consulting engineers to estimate the cost of the remediation work. The engineers estimated the remedial work would cost £1,800,000 but according to Government experts this figure was likely to be substantially exceeded.[23]

In February 1951 a fire destroyed some of the workshops at the construction site. The compressing room, machine shop and first-aid surgery were the worst affected, and much of their contents were destroyed. The damage was estimated to cost between £50,000 and £100,000.[24]

Eventually, the remediation work strengthened and enlarged the dam wall, increased the discharge capacity of the spillways (to about twice the peak discharge of the 1925 flood), and increased the storage capacity of the dam from about 652,000 acre feet (804,000,000 m3) to 837,000 acre feet (1.032×109 m3).[25]

A major flood in 1974 eroded unweathered granite from an unlined spillway discharge channel which then resulted in the destruction of a penstock to the Burrinjuck Power Station. The outlet valves of the dam were also destroyed during the same flood. These events prompted a review of the safety of the dam which recommended a new remedial works program.

Upgrade

In response to the 1974 floods, the Burrinjuck Dam Flood Security Upgrading project was undertaken to raise the existing dam wall by 12 metres (39 ft) to its present height of 92 metres (302 ft) and to install post-tensioned ground anchor cables to improve the security of the dam during major floods. At the time, the project was unprecedented in two respects:[26]

  1. the post-tensioning force required per metre length of dam crest and,
  2. the intensity of the flood discharge over the unlined sections of the side channel spillways during the Probable Maximum Flood (PMF).

The upgrading works were completed in 1999 at a cost of A$79.5 million.

See also

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References

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  9. Australian Railway Historical Society Bulletin, June, July & August, 1987 pp122-142;158-168;176-189
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External links

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