Manapouri Power Station Explained

Manapōuri Power Station
Location Map:New Zealand
Coordinates:-45.5214°N 167.2778°W
Country:New Zealand
Location:west end of Lake Manapōuri, Fiordland National Park, Southland
Status:O
Construction Began:February 1964
Opening:September 1971
Cost:NZ$135.5 million (original station)
NZ$200 million (second tailrace tunnel)
NZ$100 million (half-life refurbishment)
Res Name:Lake Manapōuri
Res Catchment:3302km2
Res Surface:141.6km2
Res Max Depth:444m (1,457feet)
Plant Name:Manapōuri Power Station
Plant Type:C
Plant Turbines:7× vertical Francis
Plant Capacity:854 MW
Plant Capacity Factor:68.4% / 79.7%
Plant Annual Gen:5100 GWh[1]
Extra: Lake Manapōuri is a natural lake - the drop between it and the sea is used by Manapōuri station.

Manapōuri Power Station is an underground hydroelectric power station on the western arm of Lake Manapouri in Fiordland National Park, in the South Island of New Zealand. At 854 MW installed capacity (although limited to 800 MW due to resource consent limits[2]), it is the largest hydroelectric power station in New Zealand, and the second largest power station in New Zealand. The station is noted for the controversy and environmental protests by the Save Manapouri Campaign against raising the level of Lake Manapouri to increase the station's hydraulic head, which galvanised New Zealanders and was one of the foundations of the New Zealand environmental movement.

Completed in 1971, Manapōuri was built primarily to supply electricity for the Tiwai Point aluminium smelter near Bluff, some 160km (100miles) to the southeast. The station utilises the 230m (760feet) drop between the western arm of Lake Manapouri and the Deep Cove branch of the Doubtful Sound 10km (10miles) away to generate electricity. The construction of the station required the excavation of almost 1.4 million tonnes of hard rock to build the machine hall and a 10 km tailrace tunnel, with a second parallel tailrace tunnel completed in 2002 to increase the station's capacity.

Since April 1999, the power station has been owned and operated by state-owned electricity generator Meridian Energy.

Construction

The power station machine hall was excavated from solid granite rock 200 metres below the level of Lake Manapōuri. Two tailrace tunnels take the water that passes through the power station to Deep Cove, a branch of Doubtful Sound, away.

Access to the power station is via a two-kilometre vehicle-access tunnel which spirals down from the surface, or a lift that drops down from the control room above the lake. There is no road access into the site; a regular boat service ferries power station workers in 35 km across the lake from Pearl Harbour, located in the town of Manapouri at the southeast corner of the lake.

This same access was for many years used to ferry tourists for public tours of the site, but since 2018 maintenance work by Meridian Energy means tours are closed "for an indefinite period".[3]

The original construction of the power station cost NZ$135.5 million (NZ$2.15 billion in 2013 dollars),[4] [5] involved almost 8 million man hours to construct, and claimed the lives of 16 workers.[6]

Soon after the power station began generating at full capacity in 1972, engineers confirmed a design problem. Greater than anticipated friction between the water and the tailrace tunnel walls meant reduced hydrodynamic head. For 30 years, until 2002, station operators risked flooding the powerhouse if they ran the station at an output greater than (with high lake level and a low tide the station could generate up to), far short of the designed peak capacity of . Construction of a second tailrace tunnel in the late 1990s, 10km (10miles) long and 10 metres in diameter, finally solved the problem and increased capacity to . The increased exit flow also increased the effective head, allowing the turbines to generate more power without using more water.

History

Early history

The first surveyors mapping out this corner of New Zealand noted the potential for hydro generation in the 178-metre drop from the lake to the Tasman Sea at Doubtful Sound. The idea of building a power station was first formulated by Peter Hay, the Superintending Engineer of the Public Works Department, and Lemuel Morris Hancock, the Electrical Engineer and General Superintendent of the Transmission Department of the California Gas and Electric Company during their November 1903 inspection of Lakes Manapōuri and Te Anau. Each of the 1904 reports by Hay and Hancock noted the hydraulic potential of the lake systems, being so high above sea level, and while the rugged isolation of the region meant that it would be neither practical nor economic to generate power for domestic consumption, the engineers realised that the location and scale of the project made it uniquely suited to electro-industrial developments such as electro-chemical or electro-metallurgical production.

In January 1926, a Wellington-based syndicate of ten businessmen headed by Joseph Orchiston and Arthur Leigh Hunt, New Zealand Sounds Hydro-Electric Concessions Limited, was granted by the government via an Order in Council the rights to develop the waters which discharged into Deep Cove, Doubtful Sound, and the waters of Lake Manapōuri, to generate in total some . The company attempted to attract Australian, British and American finance to develop the project, which would have required the construction of a powerhouse and factory complex in Deep Cove, with accommodation for an estimated 2,000 workers and wharf facilities, with the complex producing atmospheric nitrogen in the form of fertiliser and munitions. Various attempts to finance the scheme were not successful, with the water rights lapsing and the company fading into obscurity by the 1950s.

In 1955 the modern history of Manapōuri starts, when Harry Evans, a New Zealand geologist with Consolidated Zinc Proprietary Ltd identified a commercial deposit of bauxite in Australia on the west coast of Cape York Peninsula, near Weipa. It turned out to be the largest deposit of bauxite in the world yet discovered. In 1956 The Commonwealth Aluminium Corporation Pty Ltd, later known as Comalco, was formed to develop the bauxite deposits. The company started investigating sources of large quantities of cheap electricity needed to reduce the alumina recovered from the bauxite into aluminium. Comalco settled on Manapōuri as that source of power and Bluff as the site of the smelter. The plan was to refine the bauxite to alumina in Queensland, ship the alumina to New Zealand for smelting into metal, then ship it away to market.

Construction history

Political history

In July 1956, the New Zealand Electricity Department announced the possibility of a project using the Manapōuri water, an underground power station and underground tailrace tunnel discharging the water at Deep Cove in Doubtful Sound. Five months later, Consolidated Zinc Proprietary Limited (later known as Comalco) formally approached the New Zealand government about acquiring a large amount of electricity for aluminium smelting.

On 2 May 1961 Stan Goosman for the Ministry of Works for the First National Government, signed an agreement making it binding on any future government for this project to go ahead,[10] On 19 January 1960, the Labour Government and Consolidated Zinc/Comalco signed a formal agreement for Consolidated Zinc to build both an aluminium smelter at Tiwai Point and a power station in Manapōuri. The agreement violated the National Parks Act, which provided for formal protection of the Park, and required subsequent legislation to validate the development. Consolidated Zinc/Comalco received exclusive rights to the waters of both Lakes Manapōuri and Te Anau for 99 years. Consolidated Zinc/Comalco planned to build dams that would raise Lake Manapōuri by, and merge the two lakes. The Save Manapouri Campaign was born, marking the beginning of the modern New Zealand environmental movement.

In 1963, Consolidated Zinc/Comalco decided it could not afford to build the power station. The New Zealand government took over. Electricity generated by the plant was sold to Consolidated Zinc/Comalco at under an arrangement designed to return the cost of building the power station to the government.

In 1969, Consolidated Zinc's electric power rights were transferred to Comalco Power (NZ) Ltd, a subsidiary of the Australian-based Comalco Industries Pty Ltd.

In 1970, the Save Manapouri Campaign organised a petition to Parliament opposing raising the water level of Lake Manapōuri. The petition attracted 264,907 signatures, equivalent to nearly 10 percent of New Zealand's population at the time.

In 1972, New Zealand elected a new Labour government. In 1973, the Prime Minister, Norman Kirk, honoured his party's election pledge not to raise the levels of the lakes. He created an independent body, the Guardians of Lake Manapōuri, Monowai, and Te Anau, to oversee management of the lake levels. The original six Guardians were all prominent leaders of the Save Manapouri Campaign.

In 1984, the Labour Party returned to power in the general election. The resulting period was tumultuous, with Labour's controversial ministers Roger Douglas and Richard Prebble driving rogernomics, a rapid introduction of "free market" reforms and privatisation of government assets. Many suspected the Manapōuri Power station would be sold, and Comalco was the obvious buyer. In 1991, the Save Manapouri Campaign was revived, with many of the same leaders and renamed Power For Our Future. The Campaign opposed selling off the power station to ensure that Comalco did not rehabilitate its plans to raise Lake Manapouri's waters. The Campaign was successful. The government announced that Manapōuri would not be sold to Comalco.

On 1 April 1999 - the 1998 reform of the New Zealand electricity sector took effect: the Electricity Corporation of New Zealand was broken up and Manapōuri was transferred to new state-owned generator Meridian Energy.

In 2002, the Government rejected an application of a business, Southland Water 2000, to bottle 40,000 cubic metres of water in 20 hours, twelve times a year, before the water from the power station is released into Doubtful Sound.[11]

In July 2020, Rio Tinto announced that they would be closing the aluminium smelter in Bluff in August 2021,[12] [13] triggering discussions on how to utilise the energy generated in Manapouri.[14] In January 2021, Rio Tinto said they would keep the smelter open until December 2024.[15]

In May 2024, New Zealand Aluminium Smelters (NZAS) signed a 20-year electricity arrangement that guaranteed the future of the Tiwai Point aluminium smelter until at least 2044. NZAS, which owns and operates Tiwai Point, has signed contracts with electricity generators Meridian Energy, Contact Energy and Mercury NZ to set pricing for an aggregate of 572 megawatts (MW) of electricity to meet the smelter's full electricity needs. The agreements, which are subject to regulatory approvals and other conditions, are expected to commence in July 2024 and run until at least 2044.[16]

Specifications and statistics

Power station

Average annual energy output 4800 GW·h - Station generating output 850 MW - Number of generating units 7 - Net head 166 m - Maximum tailrace discharge 510 m3/s - Turbines 7 × vertical Francis type, 250 rpm, 121.5 MW made by General Electric Canada International Inc. - Generators 7 × 13.8 kV, 121.5 MW / 135 MVA (5648 A), made by Siemens Aktiengesellschaft (Germany). - Transformers 8 × 13.8 kV/220 kV, rated at 135 MVA, made by Savigliano (Italy) 1 Transformer is kept as a spare unit.

Civil engineering

Machine hall 111 m length, 18 m width, 34 m height - First tailrace tunnel 9817 m, 9.2 m diameter - Second tailrace tunnel 9829 m, 10.05 m diameter - Road access tunnel 2,042 m, 6.7 m wide - Cable shafts 7 × 1.83 m diameter, 239 m deep. - Lift shaft 193 m - Penstocks 7 × 180 m long

Operation

The massive inertia of the column of water in the long tailrace tunnel makes rapid changes to Manapōuri's generation difficult. Further, because the tailrace tunnel emerges at sea level in Deep Cove, power production can be influenced by the state of the tide there. The maximum tidal range is 2·3 metres (7'8") which is a little over one percent of the station's head. The plot shows a variation of about 5MW linked not to the usual twenty-four-hour cycle of electricity usage but to the times of high and low tide, which cycle around the clock.

Transmission

Manapōuri is connected to the rest of the National Grid via two double-circuit 220 kV transmission lines. One line connects Manapōuri to Tiwai Point via North Makarewa substation, north of Invercargill, while the other line connects Manapōuri to Invercargill substation, with one circuit also connecting to North Makarewa substation. Another double-circuit 220 kV line connects Invercargill to Tiwai Point.[17]

If Tiwai Point reduced demand or closed, Manapōuri generation would have to be reduced to prevent overloading the transmission lines out of the lower South Island. The Clutha Upper Waitaki Lines Project (CULWP) started construction to relieve this constraint, allowing an extra 400 megawatts to be sent north.[18] [19]

The Clutha Upper Waitaki Lines Project (CUWLP) was completed in April 2022. The project involved five components with a total approved cost of $197,000,000. The first two components (which keep Southland secure during dry periods) were delivered in 2015 and 2016 at a cost of around $38,000,000. In December 2020, Transpower completed the work on the Cromwell-Twizel circuits, and then in April 2022 finished the duplexing of the 142km Roxburgh–Islington line.[20]

References

Bibliography

Notes

External links

Notes and References

  1. Web site: List of Generating Stations November 2010 - New Zealand Electricity Authority . 25 January 2011 . dead . https://web.archive.org/web/20110724195627/http://www.ea.govt.nz/document/11750/download/industry/modelling/long-term-generation-development/list-of-generation-projects . 24 July 2011 .
  2. Web site: Energy Data File. Ministry of Economic Development. 1 July 2010. 23 January 2011. 12 April 2011. https://web.archive.org/web/20110412022338/http://www.med.govt.nz/templates/StandardSummary____15169.aspx. live.
  3. Web site: Manapouri Underground Power Station . 5 August 2019 . 10 December 2017 . https://web.archive.org/web/20171210021357/http://www.realjourneys.co.nz/en/experiences/tours/manapouri-underground-power-station/ . dead .
  4. Web site: New Zealand CPI Inflation Calculator - Reserve Bank on New Zealand . 25 November 2013 . dead . https://web.archive.org/web/20100701190957/http://www.rbnz.govt.nz/statistics/0135595.html . 1 July 2010 .
  5. Web site: Power From Manapouri - Construction Brochure. 30 September 2016. 2 October 2016. https://web.archive.org/web/20161002201749/http://manapouri.flexedesign.com/articles/power-from-manapouri-construction-brochure. live.
  6. Web site: Manapouri Facts and Figures - Meridian Energy . 4 September 2011 . 14 January 2015 . https://web.archive.org/web/20150114065130/https://www.meridianenergy.co.nz/about-us/manapouri/ . live .
  7. Web site: Annual Report 2006. June 2006. Meridian Energy. 4 October 2007. dead. https://web.archive.org/web/20081016112656/http://www.meridianenergy.co.nz/NR/rdonlyres/05E7CD73-5A1D-4492-99C9-0D1AC66C8D87/0/2006Commentary.pdf. 16 October 2008.
  8. Web site: Refurbishment: Upgrading Turbines at Manapouri. 7 January 2008. 7 November 2016. 7 November 2016. https://web.archive.org/web/20161107093216/http://www.hydroworld.com/articles/print/volume-16/issue-3/articles/refurbishment-upgrading-turbines-at-manapouri.html. live.
  9. News: New transformers for Manapouri station. The Southland Times. Brittany Pickett. 23 December 2014. 7 November 2016. 1 September 2017. https://web.archive.org/web/20170901094508/http://www.stuff.co.nz/business/industries/64368583/new-transformers-for-manapouri-station. live.
  10. Web site: Manapouri - te Anau Development Act 1963 No 23 (As at 30 June 2012), Public Act Schedule Agreement dated 15 August 1963 – New Zealand Legislation. 5 December 2019. 5 December 2019. https://web.archive.org/web/20191205140711/http://www.legislation.govt.nz/act/public/1963/0023/latest/DLM348259.html. live.
  11. NZ Herald, "Fiordland water export scheme rejected", 8 April 2002, https://www.nzherald.co.nz/nz/fiordland-water-export-scheme-rejected/XQINOW24PDBE7BND7LXUXE4OUQ/
  12. News: Rio Tinto announces plans to close New Zealand aluminium smelter in 2021. NZ Herald. Rutherford. Hamish. 9 July 2020. en. 20 August 2020. 9 July 2020. https://web.archive.org/web/20200709113316/https://www.nzherald.co.nz/business/news/article.cfm?c_id=3&objectid=12346671. live.
  13. News: The Bulletin: Tiwai Point closing affects everything. The Spinoff. Braae. Alex. 10 July 2020. en. 20 August 2020. 21 August 2020. https://web.archive.org/web/20200821095344/https://thespinoff.co.nz/the-bulletin/10-07-2020/the-bulletin-tiwai-point-closing-affects-everything/. live.
  14. News: Ambitious proposals for surplus electricity once Tiwai closes. Radio New Zealand. 10 August 2020. en. 20 August 2020. 4 June 2023. https://web.archive.org/web/20230604212420/https://www.rnz.co.nz/national/programmes/ninetonoon/audio/2018758740/ambitious-proposals-for-surplus-electricity-once-tiwai-closes. live.
  15. News: 13 January 2021. UPDATE 2-Rio Tinto reaches deal to continue NZ aluminium smelter ops till 2024. en. Reuters. 2 March 2021. 14 January 2021. https://web.archive.org/web/20210114014729/https://www.reuters.com/article/rio-tinto-newzealand-aluminium-smelter-idUSL4N2JO3RX. live.
  16. Web site: Long-term future for New Zealand's Tiwai Point aluminium smelter secured with new power deals . 17 June 2024 . www.riotinto.com . en.
  17. Web site: Otago-Southland Regional Plan - 2012 Annual Planning Report . Transpower New Zealand Limited . 1 January 2011.
  18. Web site: 2 December 2019. 'Surplus' power from smelter could be freed-up for South Island in 2022. 29 September 2021. Stuff. en. 29 September 2021. https://web.archive.org/web/20210929020537/https://www.stuff.co.nz/business/117888748/surplus-power-from-smelter-could-be-freedup-for-south-island-in-2022. live.
  19. Web site: Morgan. Jared. 9 January 2021. Transmission line upgrade next phase starts. 29 September 2021. Otago Daily Times Online News. en. 21 June 2021. https://web.archive.org/web/20210621212908/https://www.odt.co.nz/regions/central-otago/transmission-line-upgrade-next-phase-starts. live.
  20. Web site: Clutha Upper Waitaki Lines Project (CUWLP) Transpower . 17 June 2024 . www.transpower.co.nz . en.