Lake Margaret Power Station

Lake Margaret Dam

The control room from the former power station, in June 2006. The power station is now operated remotely.
Location of the Lake Margaret Dam in Tasmania
Country Australia
Location Western Tasmania
Coordinates 41°59′24″S 145°34′48″E / 41.99000°S 145.58000°E / -41.99000; 145.58000Coordinates: 41°59′24″S 145°34′48″E / 41.99000°S 145.58000°E / -41.99000; 145.58000
Purpose Power
Status Operational
Construction began 1914 (1914)
Opening date 1918 (1918)
Owner(s) Hydro Tasmania
Dam and spillways
Type of dam Gravity dam
Impounds Yolande River
Height 17 metres (56 ft)
Length 243 metres (797 ft)
Dam volume 6×10^3 m3 (210×10^3 cu ft)
Spillways 1
Spillway type Uncontrolled
Spillway capacity 29 m3/s (1,000 cu ft/s)
Reservoir
Creates Lake Margaret
Total capacity 15,374 megalitres (542.9×10^6 cu ft)
Catchment area 21 square kilometres (8.1 sq mi)
Surface area 15.83 hectares (39.1 acres)
Power station
Name Lake Margaret Power Station
Coordinates 41°59′24″S 145°34′48″E / 41.99000°S 145.58000°E / -41.99000; 145.58000 (Lake Margaret Power Station)
Operator(s) Hydro Tasmania
Commission date
  • 1914 (1914) (A, B, C & D);
  • 1918 (1918) (E & F);
  • 1930 (1930) (G);
  • 2009 (2009) (recommission A-G)
Decommission date 2006 (2006) (A-G)
Type
Hydraulic head 325 metres (1,066 ft)
Turbines
  • 6 x 1.2 MW (1,600 hp)
    Boving Pelton-type turbines;
  • 1 x 1.2 MW (1,600 hp)
    James Gordon Pelton-type turbine
  • 1 x 3.2 MW (4,300 hp)
    Turgo turbine
Installed capacity 8.4 megawatts (11,300 hp)
Annual generation 69 gigawatt-hours (250 TJ)
Website
hydro.com.au/energy/our-power-stations/king-yolande
[1]

The Lake Margaret Power Stations comprise two hydroelectric power stations located in Western Tasmania, Australia. The power stations are part of the King  Yolande Power Scheme and are owned and operated by Hydro Tasmania. Officially the Upper Lake Margaret Power Station, a conventional hydroelectric power station, and the Lower Lake Margaret Power Station, a mini-hydroelectric power station, the stations are generally collectively referred to in the singular format as the Lake Margaret Power Station. The stations are located approximately 2.5 kilometres (1.6 mi) apart.

The Upper Lake Margaret Power Station was constructed by the Mount Lyell Mining and Railway Company between 1911 and 1914. In 1984, the station was sold to the Tasmanian Hydro-Electric Commission and was officially decommissioned in 2006 and after a multi-million dollar refit was recommissioned in 2009.[2][3][4] The Lower Lake Margaret Power Station was built also by the Mount Lyell Mining and Railway Company in 1931 and decommissioned in 1995. After the implementation of a mini-hydro project in 2009, the project was recommissioned in 2010.[5]

Technical details

Part of the King  Yolande scheme that comprises three hydroelectric power stations, the Lake Margaret Power Stations utilise water from the naturally-forming Lake Margaret which was dammed in 1914 to increase the storage volume and head. A key feature of the development is a 2.2-kilometre (1.4 mi)-long woodstave pipeline which connects the dam to a steel penstock which feeds the power station. In 2009 a new pipeline of Alaskan Yellow Cedar replaced the native King Billy Pine pipeline constructed in 1937.[6]

The upper power station was recommissioned in 2009 by Hydro Tasmania and has six 1.2-megawatt (1,600 hp) Boving Pelton-type turbines and one 1.2-megawatt (1,600 hp) James Gordon Pelton-type turbine with a combined generating capacity of 8.4 megawatts (11,300 hp) of electricity. Within the station building, each of the seven horizontal axis turbines are connected to open wheel generators. The first four machines were installed in 1914. Two more were added in 1918 and a seventh machine was added in 1930. Each turbine is fitted with a motorised inlet valve. The generators are connected to individual machine circuit breakers which are connected to circuit breakers for each of the four transmission circuits contained in a split bus.[6] The station output is estimated to be 48 gigawatt-hours (170 TJ) annually.[1]

The lower power station was recommissioned in 2010 by Hydro Tasmania and has a three-jet Turgo turbine with a generating capacity of 3.2 megawatts (4,300 hp) of electricity. Water is delivered to the station via a 1.9-kilometre (1.2 mi) wood stave pipeline and 254-metre (833 ft) Fibre Reinforced Plastic penstock. The station output is estimated to be 21 gigawatt-hours (76 TJ) annually.[5]

History

In 1911 the Mount Lyell Mining and Railway Company decided to make more extensive use of electricity in its smelting operations in the mining town of Queenstown, on Tasmania's west coast. It selected Lake Margaret, a small lake high up on Mount Sedgwick, to the north-west of the town, as its catchment area.

In 1911, construction of a dam was commenced, which raised the original lake by 6 metres (20 ft). The water was originally conveyed from the dam via a 2.2 kilometres (1.4 mi) wood stave pipeline. The Australian Woodpipe Company was consulted and employed to construct the wooden pipeline. The Mount Lyell Mining & Railway Company determined that not only was a wooden pipeline cheaper to construct, but it was also more efficient and durable than iron or steel. The local native Tasmanian timber King Billy Pine was studied but it was decided not to be suitable.

With regard to King William Pine, we are sorry to say that we do not consider this at all suitable for the purpose of pipe construction on account of its lack of uniform density. We did prepare an estimate for constructing the pipe at your Works from Pine to be supplied by you, and our estimate actually worked out at a lower figure than that of your engineers, but we feel that we would not like to be associated with the manufacture of a pipe made from this timber. We regret being compelled to arrive at this decision because we have been searching Australasia for a suitable timber, and thought that the Pine in question might have answered the purpose.
Albert G. McDonald, an interstate representative for the Australian Woodpipe Company, in a letter to Robert Carl Sticht, the General Manager of the Mount Lyell Mining & Railway Co Ltd, 13 June 1913.

The wood stave pipeline was subsequently constructed from Oregon Pine (Douglas Fir), which was imported from Canada. The timber was shipped to the west coast town of Strahan and was transported to the Lake Margaret precinct via the ABT Railway. This pipeline rapidly deteriorated and in 1938 was replaced by a King Billy Pine wood stave pipeline, with the timber sourced locally. This pipeline was still in service until the 30 June 2006 closure of the Lake Margaret Power Scheme.

The wood stave pipeline originally joined two 29-inch-diameter (740 mm) steel penstock pipes which dropped 330 metres (1,080 ft) to the power station building in the Yolande Valley below. Due to the efficiency of the scheme another penstock pipe was added in 1919. Due to internal deterioration these pipes were replaced in 1969 with a single 48-inch-diameter (1,200 mm) steel pipe, by contractor John Holland. This replacement coincided with major refurbishment of the power station building, renewal of sections of the Lower Power Scheme wood stave pipeline, replacement of the transmission lines between the power station and the Queenstown substation, and post-stressing of the Lake Margaret dam wall.

The Lake Margaret Lower Power Scheme was opened in 1931. Showcasing the ingenuity and resourcefulness of the men in charge at the time, it was located downstream from the main power station and utilised water that had already powered the turbines in the main station. It housed a single Boving-Francis type turbine which, whilst having to be manually started, could be remotely controlled from the main power station, demonstrating a unique system that is considered significant in the history of power generation in Tasmania and Australia. The Lower Power Scheme was mothballed in the early 1990s.

Closure

The power plant itself produced 8.4 megawatts (11,300 hp) of peak power from seven Pelton turbines, with an average output of 5.5 megawatts (7,400 hp) (limited by rainfall into the catchment), four of which were in service from when the building opened in 1914, two since 1919 and the 7th since 1930.

Throughout 2005 the old plant was still in full-time use, but became the subject of debate. The Lake Margaret Precinct and Power Station were nominated for inclusion in the state heritage register due to the unique nature of the station's role as an integral part of West Coast history that has not been closed down or destroyed  the fate of many of the man made structures on the west coast that no longer serve purposes for the mining or other industries.

On 30 June 2006 the Lake Margaret Power Station closed, due to the cost and increasing difficulty of maintaining the decrepit King Billy Pine pipeline. In the days immediately before closure, five machines were operating at full output, one was idle due to insufficient water pressure and another out of service due to requiring replacement turbine buckets.[7]

At the time of closure the pipeline was estimated to be losing 10% of the water it carried due to leakage. During early 2007 the extent of leakage was sufficient of itself to draw down the level in Lake Margaret by around 10% during a period of very low rainfall. At this time the pipeline was still under pressure although the power station remained closed.

Hydro Tasmania proposed refurbishment of the scheme with a return to operation around 2009-10. Community consultation found a strong preference for refurbishment using the existing machines plus a new wood stave pipeline rather than the use of new machines or a steel pipe.

Any reuse of the existing machinery would likely involve the installation of automatic shutdown capability to avoid the need for 24-hour manning of the power station in order to improve the economics of refurbishment. All of Tasmania's other major hydro-electric power stations were either originally built to operate unmanned (standard procedure for new power stations in Tasmania since the 1950s) or have been refurbished in recent years to enable unmanned operation.

Back to Lake Margaret Day

Activities inside the village hall during the Back To Lake Margaret Day in 2007.

On 18 March 2007 Hydro Tasmania hosted the Back to Lake Margaret Day at the Lake Margaret Hydro-Electric Scheme. The event was an open invitation to all people interested in the past and future of the Lake Margaret scheme. Previous residents and employees were invited to attend, and the day was officially opened by Alex Wilkinson, the oldest known person who has an association with the scheme.

During the day the mothballed power station was open for inspection, as were two of the empty ca. 1914 cottages which had formerly housed many of the attendees at the event. The village hall was a hive of activity during the day, with aged photographs being pinned the walls and people reminiscing about their time at Lake Margaret. The date was chosen to coincide with the Mount Lyell Twenty-Five Year Reunion Dinner, which was held in Queenstown on the same weekend and included many past employees who also have an association with Lake Margaret. Over 250 people attended the Back To Lake Margaret Day.

Reopening

In June 2008 a decision was made to return the Lake Margaret Power Station back to operational capacity. Following the various public and other efforts - the Lake Margaret system was reopened in 2009.[8] The refurbishment included rebuilding the 2.2 kilometres (1.4 mi) wood stave penstock for the Upper Power Station.[9][10] The upper power station was reopened on 12 November 2009, and the lower power station on 23 July 2010.[4][11]

2014 Queenstown Heritage and Arts Festival

In October 2014, the Queenstown Heritage and Arts Festival (now known as The Unconformity) programme included events and arts works at the Lake Margaret precinct.[12]

See also

References

  1. 1 2 "Register of Large Dams in Australia" (Excel (requires download)). Dams information. Australian National Committee on Large Dams. 2010. Retrieved 23 June 2015.
  2. Ford, Sean (12 November 2009). "Lake Margaret Power Station reopened". The Advocate. Tasmania. Retrieved 21 June 2015.
  3. "The redeveloped Lower Lake Margaret power station near Queenstown was officially opened today by the Minister for Energy and Resources Bryan Green" (Press release). Hydro Tasmania. 23 July 2010.
  4. 1 2 Mathers, P. (1 February 2010). "Lake Margaret Power Scheme: a long history and assured future". Australian Journal of Electrical & Electronics Engineering (Heritage paper report). The Institution of Engineers, Australia. 7 (1): 89(11). ISSN 1448-837X.
  5. 1 2 "Lower Lake Margaret mini hydro: Technical fact sheet" (PDF). King - Yolande Catchment. Hydro Tasmania. Retrieved 6 July 2015.
  6. 1 2 "Upper Lake Margaret Power Station: Technical fact sheet" (PDF). King - Yolande Catchment. Hydro Tasmania. Retrieved 6 July 2015.
  7. "Heritage listing complicates decommission plans". International Water Power & Dam Construction (World news, Hydro Tasmania). Progressive Media Markets Ltd. 58 (9): 8(1). 1 September 2006. ISSN 0306-400X.
  8. "Innovation and heritage feature lower Lake Margaret redevelopment" (Press release). Hydro Tasmania. July 2010.
  9. "$3500 a m timber pipeline replaces worlds' biggest soaker hose". The Earthmover and Civil Contractor. August 2009. Retrieved 4 February 2012.
  10. Atherton, Grant (2010). "Lake Margaret Hilltop Pipeline Replacement". 5th Civil Engineering Conference in the Asian Region and Australasian Structural Engineering Conference 2010, The. Engineers Australia: 944–950. ISBN 978-0-646-53727-6.
  11. Mainwaring, Ross (February 2012). "The past becomes the present: wooden rails and pipe dreams". Light Railways (223): 16–23.
  12. Page 4 re the events, page 2 Paradise Lost? by Frank Martin, a former resident of Lake Margaret village -Queenstown Heritage & Arts Festival (Tas.) (issuing body.) (2014), Queenstown Heritage & Arts Festival : no ordinary place. no ordinary festival, [Queenstown, Tasmania] Queenstown Heritage & Arts Festival, retrieved 14 October 2016

Further reading

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