Kinlochleven hydroelectric scheme

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Coordinates: 56°42′46″N 4°57′29″W / 56.71278°N 4.95806°W / 56.71278; -4.95806
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Kinlochleven Hydroelectric Scheme
Power house with penstocks behind
Map
CountryScotland, UK
LocationKinlochleven, Highland
Coordinates56°42′46″N 4°57′29″W / 56.71278°N 4.95806°W / 56.71278; -4.95806
StatusOperational
Construction began1904
Commission date1907–1909 (refurbished 1996-2000)
Power generation
Units operational3 × 10 MW
Make and modelGilkes Francis turbines
Units decommissioned11 × 2 MW (DC) Escher Wyss (Zürich) Pelton
[edit on Wikidata]

The Kinlochleven hydroelectric scheme was built between 1905 and 1909 to supply power for an Aluminium smelter owned by British Aluminium. It was the second in Scotland after the 1896 Falls of Foyers scheme. The smelter and power house were constructed on the south bank of the River Leven in the village of Kinlochleven, in the south-west of the Scottish Highlands.

The Blackwater Reservoir was formed by constructing a mass concrete gravity dam over ½ mile (800 m) across the Blackwater, the main tributary of the River Leven, with a catchment area of 60 square miles (160 km2). Water is conveyed along a covered concrete conduit 3.5 miles (5.6 km) long, which also collects water from three side stream intakes. The water descends 935 feet (285 m) from the valve house to the power house via six steel pipes.

Power was originally generated by 11 Pelton wheel turbines and three auxiliary sets, with a total capacity of 25,725 kW. These were replaced between 1996 and 2001 by Gilkes, who installed three 10 MW Francis turbines.[1]

The aluminium smelter closed in 2000,[2] but the power station continues to export power via the National Grid to the Lochaber smelter in Fort William, via an upgraded 132 kV overhead line.

The downstream face of a concrete dam stretching off into the distance, with choppy water in the reservoir behind. To the right is a damp rocky spillway with scrubby trees at the edge of the image. In the distance two mountains are just visible through the haze
The Blackwater Dam overflowing with excess water.
Looking down grassy hillside at six large black metal pipes, which pass through concrete blocks. The pipe sections are bolted together, with a small amount leaking out and spraying upwards at one joint
The six steel penstocks and associated thrust blocks just upstream of the power house

History[edit]

The scheme was consented by the Loch Leven Water Power Acts of 1901 and 1904, the latter of which extended the time available for completion and had some variations in the scheme. The scheme was designed by Thomas Meik and Sons, with consulting input from Sir A R Binnie.

Construction[edit]

Construction of the hydroelectric scheme started in 1905, and took approximately four years. The main contractor was Sir John Jackson Ltd, with A H Roberts as the resident engineer. Construction cost about £600,000, or around £60m adjusted for inflation to 2024.[3]

The workforce was largely Irish Navvies, with around 3,000 men working in squalid conditions. Many died in construction accidents, and were buried in a graveyard beside the dam, with concrete headstones.[4]

Materials were transferred to the Blackwater Dam construction site by means of an aerial cableway from a wharf on Loch Leven. This was supported on trestles 10–130 ft (3–40 m) high with spans of 100–1,000 ft (30–305 m), and powered by a temporary hydroelectric plant with a 250 horsepower (190 kW) Pelton wheel. A railway was also constructed between the wharf and the dam. This had two rope inclines of 200 and 600 feet (61 and 183 m), but otherwise generally followed the contours of the valley.

The Blackwater Dam was 3,112 feet (949 m) long and 86 feet (26 m) high. It was constructed just upstream of Dubh Lochan, and inundated Lochan Inbhir, Lochan na Sàlach Uidre and Loch a'Bhàillidh.[5] During construction, it was found the unit weight of concrete made with local aggregate was lower than used in design calculations, so the profile of the dam was amended to give it a wider base, with an overturning factor of safety of 2.28.

From the dam, water is conveyed along a reinforced concrete conduit, 8 feet (2.4 m) square and 3.5 miles (5.6 km) long, with a fall of 1 in 1000. After passing through the valve house, the water descends through six parallel high-pressure penstocks made of steel, each 39 inches (0.99 m) in diameter and 5,750 feet (1,750 m) long.

During World War I, due to increasing demands for aluminium, Balfour Beatty was commissioned to construct a dam and aqueduct to bring additional water for the scheme from Loch Eilde Mhor, increasing the catchment to around 66 square miles (170 km2). This was constructed by 1,200 German prisoners of war and 500 British troops "of low medical category".

Operation[edit]

A temporary smelter was constructed and commenced production in 1907, although this closed after the main works opened in 1909.

The power house originally had 11 Pelton turbines made by Escher Wyss (Zürich). Each turbine was coupled to two 1,000 kW DC generators made by Dick, Kerr & Co., which powered the smelting process. There were also two AC generators for auxiliary power.[6]

The annual output of the hydroelectric scheme reached 160 GWh, a load factor of over 80%.

Smelter closure and power station upgrade[edit]

In 1994, closure of the smelter was by around the end of the century was announced by the owners at that time Alcan Smelting and Power UK Ltd. It eventually closed in June 2000. The power house building was Grade A listed on 3 August 2004.

Gilkes installed three 10 MW horizontal-axis Francis turbines between 1996 and 2001, in stages while the facility was operating. The first turbine (K1) was installed in 1996, and was controlled by a simple PLC to maintain grid frequency. The other turbines (K2 & K3) were installed in 1999 and 2000. The full system was controlled by a Gilkes digital speed governor, which allows the scheme to operate in an 'island' mode if the grid fails. Flow to each of the three turbines comes from two of the six penstocks, with a new Y-piece and downstream lateral compensator. Each turbine has a peak flow of 4.15 m³/s.[7][8]

Downrating for Renewables Obligation[edit]

In April 2002, Kinlochleven the "Declared Net Capacity" (DNC) was was downrated to 19.5 MW from the previous 30 MW,[9] permitting accreditation under the Renewables Obligation (RO) support mechanism which only applied to hydropower schemes with a DNC under 20 MW. The DNC is the maximum continuous power output of the plant, excluding that used by the facility.[9]

The rules of the RO (Scotland) were changed in 2018, allowing the capacity of the hydropower station to be upgraded back to 27.5 MW, although it only gets RO support for 19.5 MW, the 8 MW increase receives no subsidy.[10] The upgrade was completed by April 2020, and in the week before 21 April the scheme generated an average of 23.27 MW (approximately 3.9 GWh total).[11]

Aluminium smelter[edit]

In 1909 when the smelter was completed, the total annual output of all other smelters in Britain was about 2,500 tons, which was less than one third the designed output of the Kinlochleven smelter. The smelter produced about 8,000 tonnes per year, significantly less than modern plants which produce around 250,000, which meant it was less economical to run.[12]

Peak employment in the smelter was over 700 people, although by January 1999 there were just 96 employees.[12]

Railway[edit]

A narrow-gauge railway approximately a mile long linked the pier on the southern shore of Loch Leven and the smelter, which operated between 1906 and 1960. It was double track throughout with a gauge of 3 feet (0.91 m) and overhead electric power at 500–550 V DC, making it the first electric railway in Scotland. Four-wheeled electric locomotives were built in Preston, Lancashire by Dick, Kerr & Co. (who also made the generators for the hydroelectric scheme) to haul freight only.[13][14][15]

References[edit]

  1. ^ "Hydroelectric smelting plant gets an upgrade". World Pumps. 2001 (418): 15–16. July 2001. doi:10.1016/s0262-1762(01)80279-0. ISSN 0262-1762.
  2. ^ Bell, Alex (28 May 2000). "Electric village refuses to die as plant closes". The Observer. ISSN 0029-7712. Retrieved 18 May 2024.
  3. ^ "Inflation calculator". www.bankofengland.co.uk. Retrieved 19 May 2024.
  4. ^ "BBC One - Making Scotland's Landscape, Scotland's Water, Blackwater Dam". BBC. 11 November 2010. Retrieved 19 May 2024.
  5. ^ One-inch Scotland, 1885-1900 (Map). Ordnance Survey. Retrieved 18 May 2024 – via National Library of Scotland Georeferenced Maps.
  6. ^ "MHG33837 - Kinlochleven, Power House - Highland Historic Environment Record". Highland Historic Environment Record. Retrieved 19 May 2024.
  7. ^ "Scottish smelting". International Water Power and Dam Construction. 11 August 2022. Archived from the original on 11 August 2022. Retrieved 18 May 2024.
  8. ^ "Kinlochleven". Gilkes. Retrieved 19 May 2024.
  9. ^ a b The Renewables Obligation Ofgem’s first annual report (PDF) (Report). Office of Gas and Electricity Markets. February 2004. p. 35. Retrieved 24 May 2024.
  10. ^ Glen, Louise (16 November 2018). "Hydro plant boost after rule change". Press and Journal. Archived from the original on 24 May 2024. Retrieved 24 May 2024.
  11. ^ Arnaud, Stan (21 April 2020). "Highland hydro station generating more power to the people". Press and Journal. Retrieved 24 May 2024.
  12. ^ a b "Kinlochleven - a highland village reborn". www.caledonia.org.uk. Retrieved 19 May 2024.
  13. ^ "Industrial Railways - Important Private Lines in Great Britain". Railway Wonders of the World. Retrieved 19 May 2024.
  14. ^ "Kinlochleven". Canmore. Retrieved 19 May 2024.
  15. ^ "Kinlochleven Railway". Hebridean Light Railway. 22 April 2010. Retrieved 19 May 2024.

Bibliography[edit]

  • Payne, Peter Lester (1988). The hydro: a study of the development of the major hydro-electric schemes undertaken by the North of Scotland Hydro-Electric Board. Aberdeen, Scotland: Aberdeen University Press. pp. 5–9. ISBN 978-0-08-036584-8.
  • Paxton, Roland; Shipway, J. (2007). Scotland - Highlands and islands. Civil engineering heritage. Royal Commission on the Ancient and Historical Monuments and Constructions of Scotland. London: Thomas Telford. pp. 172–174. ISBN 978-0-7277-3488-4. OCLC 155675101.
  • Witherall, Raoul (January–February 2000). "Alcan winds down oldest operational smelter". Aluminium Today, 12. 12 (1). Retrieved 18 May 2024 – via ProQuest.
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