Calder Hall nuclear power station

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Calder Hall Nuclear Power Station
Calder Hall nuclear power station, after opening.jpg
Calder Hall nuclear power station, after opening
Calder Hall nuclear power station
CountryEngland
LocationSeascale
Coordinates 54°25′07″N03°29′29″W / 54.41861°N 3.49139°W / 54.41861; -3.49139
StatusIn decommissioning
Construction began1953
Commission date 1956
Decommission date2003
Owner Nuclear Decommissioning Authority
Operator Sellafield Ltd
Thermal power station
Primary fuelNuclear
Cooling towers4 (demolished 2007)
Power generation
Units operational4 x 60 MWe (1956–2003)
Make and model C.A. Parsons & Company
UKAEA
Nameplate capacity 240 MWe
Capacity factor 79%
Annual net output 360 GWh
External links
Commons Related media on Commons

grid reference NY034036

Calder Hall Nuclear Power Station is a former Magnox nuclear power station at Sellafield in Cumbria in North West England. Calder Hall was the world's first full-scale commercial nuclear power station to enter operation, [1] and was the sister plant to the Chapelcross plant in Scotland. [2] Both were commissioned and originally operated by the United Kingdom Atomic Energy Authority. The primary purpose of both plants was to produce weapons-grade plutonium for the UK's nuclear weapons programme, but they also generated electrical power for the National Grid.

Contents

Decommissioning by Sellafield Ltd started in 2005. The site is partially demolished and is expected that only the reactor cores and associated radiation shielding will remain by 2027, when it will enter a period of extended care and maintenance using the "safestore" principle, before final demolition.

Description

Fuel loading at Calder Hall power station Calder Hall, fuel loading.jpg
Fuel loading at Calder Hall power station

It was decided by the UK Government to proceed with the civil nuclear power programme in 1952, and construction at Calder Hall began the following year. The station was designed by a team led by Christopher Hinton, Baron Hinton of Bankside,

Calder Hall initially had two cooling towers, with two further added at the opposite end of the power station in 1958 and 1959. [3] Each were 88 metres (289 ft) in height. [4] The four Magnox (magnesium non-oxidising, referring to the alloy used for the fuel element cladding) 180 MWth graphite moderated, carbon dioxide cooled nuclear reactors were fuelled by natural uranium enclosed in magnesium-aluminium alloy cans. [5] The layout was largely emulated at Chapelcross in 1958, [6] though at Calder Hall, the four units are divided by A and B each with their own turbine hall, unlike Chapelcross where all four units share a turbine hall. The Calder Hall and Chapelcross design was codenamed PIPPA (Pressurised Pile Producing Power and Plutonium) by the UKAEA to denote the plant's dual commercial and military role. [7]

The reactors each weighed 33,000 tonnes, had four heat exchangers and 1,696 nuclear fuel channels. 8 x 3,000 rpm turbines, each 75 metres (246 ft) long, 20 metres (66 ft) wide and 25 metres (82 ft) high were installed to generate the electricity. [5] The reactors were supplied by UKAEA, the turbines by C. A. Parsons and Company, and the civil engineering contractor was Taylor Woodrow Construction. [8]

History

Calder Hall was an early development of the existing Windscale site, and due to its size required considerable extension of the site to the south east across the River Calder. It was named after Calder Hall farm, which had farmed the land it was built on, and bridges were built over the River Calder to link to the existing site. It was divided into two operating units, Calder "A" and Calder "B", each having a turbine hall and two cooling towers shared between reactors 1–2, and reactors 3-4 respectively. [9]

Construction began in 1953 [3] and was carried out by Taylor Woodrow Construction and was completed in 1956. [10]

The primary purpose was to produce plutonium for the UK's nuclear weapons programme, for weapons including the WE.177 series. Electricity was always considered to be a by-product. [11] [12]

Calder Hall was officially opened on 17 October 1956 by Queen Elizabeth II. [13] It was initially owned and operated by the Production Group of the United Kingdom Atomic Energy Authority (UKAEA) until the creation of British Nuclear Fuels Limited (BNFL) in 1971. [14] Restructuring by the British government later resulted in a new company, Sellafield Ltd, gaining responsibility for operations of the Sellafield site. [15]

The two units were originally designed for a life of 20 years from respectively 1956 and 1959. However in July 1996 the plant was granted an operating licence for a further ten years. [16] Its military use, which meant it was shut down for periods of its life, contributed to its long lifetime. Due to embrittlement from years of exposure to radiation, it was decided to close the plant three years sooner than planned. [17]

Closure and decommissioning

The station was closed on 31 March 2003, the first reactor having been in use for nearly 47 years. [18] Decommissioning started in 2005. The cooling towers were demolished by controlled implosions on 29 September 2007. A period of 12 weeks was required to remove asbestos in the towers' rubble. [19] The reactors were fully defueled by 2019 and the spent fuel was taken across the Sellafield site to be reprocessed within the Magnox Reprocessing Plant. It is planned that by 2027 only the four reactor buildings will be left, and they will be dismantled to the point where only the concrete bio-shield that contains the reactor core remains. The site is expected to be in safe storage by 2027 or later, using the "safestore" principle, which utilises an extended period of care and maintenance to reduce overall decommissioning costs. [20] [21] There had been proposals in 2007 for transforming the station into a museum, involving renovating Calder Hall and preserving the cooling towers, but the costs were found to be too high. [22]

Ownership of all of the site's assets and liabilities was transferred to the Nuclear Decommissioning Authority (NDA), a regulatory body created by the Energy Act 2004. While operations were transferred from BNFL to Sellafield Ltd. [23]

See also

Related Research Articles

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Sellafield, formerly known as Windscale, is a large multi-function nuclear site close to Seascale on the coast of Cumbria, England. As of August 2022, primary activities are nuclear waste processing and storage and nuclear decommissioning. Former activities included nuclear power generation from 1956 to 2003, and nuclear fuel reprocessing from 1952 to 2022.

<span class="mw-page-title-main">Magnox</span> Type of nuclear reactor

Magnox is a type of nuclear power / production reactor that was designed to run on natural uranium with graphite as the moderator and carbon dioxide gas as the heat exchange coolant. It belongs to the wider class of gas-cooled reactors. The name comes from the magnesium-aluminium alloy, used to clad the fuel rods inside the reactor. Like most other "Generation I nuclear reactors", the Magnox was designed with the dual purpose of producing electrical power and plutonium-239 for the nascent nuclear weapons programme in Britain. The name refers specifically to the United Kingdom design but is sometimes used generically to refer to any similar reactor.

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Chapelcross nuclear power station is a former Magnox nuclear power station undergoing decommissioning. It is located in Annan in Dumfries and Galloway in southwest Scotland, and was in operation from 1959 to 2004. It was the sister plant to the Calder Hall nuclear power station plant in Cumbria, England; both were commissioned and originally operated by the United Kingdom Atomic Energy Authority. The primary purpose of both plants was to produce weapons-grade plutonium for the UK's nuclear weapons programme, but they also generated electrical power for the National Grid. Later in the reactors' lifecycle, as the UK slowed the development of the nuclear deterrent as the cold war came to a close, power production became the primary goal of reactor operation.

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References

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