New technology will help the UK to decommission old nuclear sites faster - full list of hotspots

Wednesday, 20th January 2021, 12:02 pm
Updated Wednesday, 20th January 2021, 12:03 pm
New technology will help the UK to decommission old nuclear sites faster - full list of hotspots (Photo: Shutterstock)

The UK and Japan are co-developing new automated technologies that will help safely decommission old nuclear sites.

It has been reported that the new £12 million partnership aims to decommission legacy nuclear facilities faster, and will see robotics play an essential role in the bid to make these areas safe for humans.

The new technologies will help to decommission old nuclear sites, such as Fukushima in Japan, which was struck by the major earthquake in March 2011, prompting a nuclear emergency.

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The UK has its own set of nuclear plants, eight of which are still operational. The country generates about 20 percent of its electricity from nuclear power, but almost half of current capacity is to be retired by 2025.

Two new power stations are under construction, with Hinkley Point C 1 due to open in 2025, and Hinkley Point C 2 due to open the following year.

Decommissioning a nuclear power plant is a long and painstaking process, taking an average of 50 years to complete. Although many plants around the UK are due to stop generating power, the process of dismantling them will last for many years to come.

Existing UK nuclear sites around the country

Calder Hall

In the 1950s, the UK opened the world’s first commercial nuclear power station, and in 1956 it began to supply nuclear electricity to the public grid for the first time. The station was a small scale Magnox reactor, which had a design life of 20 years, but the majority ran for at least twice as long. It was closed on 31 March 2003.

In 2019, as part of the decommissioning, the final fuel was taken out, after 47 years of operation. As current plans stand, by 2027 only four reactor buildings will be left of the original Calder Hall complex.

Over its lifetime, Calder Hall produced enough electricity to power a three bar radiator for 2.85 million years.

Sizewell

The Sizewell nuclear site is located in Suffolk and consists of two nuclear power stations - one still active, and one decommissioned. Sizewell A had two Magnox reactors, and was opened in 1967. The power station was shut down in 2006, with defueling and removal of most buildings expected to take until 2034. The care and maintenance phase will continue from 2034 to 2092.

Sizewell B is currently still active and has an estimated decommissioning date of 2035. The plant is the UK’s only Pressurised Water Reactor, and is also the most modern nuclear power station in the UK.

Sizewell Nuclear Site is located on the shore of a beach, near Sizewell fishing village. The beach is still safe to visit, with the Environmental Agency insisting that there are “no safety of environmental concerns and no risk to members of the public”.

Hinkley Point

Hinkley Point is located on the Bristol Channel coast of Somerset in England. The site contains three power stations - one closed, one active and one under construction.

Hinkley Point A is a decommissioned Magnox nuclear power station. It was commissioned in 1965, and decommissioned in 2000. In 1988, the station's Reactor two set a world record for the longest continuous period of power generation from a commercial reactor, with 700 days and seven hours.

The state was also modified so that weapons grade plutonium could be extracted for military purposes, should the need arise.

Hinkley Point B was the first commercial Advanced Gas Cooled reactor to generate power to the National Grid in 1976. It was announced in November 2020 that the power station will stop generating electricity and move to the defueling phase no later than 15 June 2022.

Hinkley Point C is currently under construction after beginning in 2008. The site is estimated to be open and generating power by December 2025.

Hunterston

Hunterston B power station is located on the west coast of Scotland, and is capable of supplying electricity to approximately 1.7 million UK homes. The plant began generating power in 1976. EDF Energy, which runs the plant, decided in August 2020 that it would stop generating electricity in late 2021, at least two years earlier than planned.

The station has been offline since 2018, after inspectors discovered 350 microscopic cracks in the reactor’s graphite core. In October 2019, The Ferret reported that at least 58 fragments and pieces of debris had fallen off the graphite blocks as the cracks worsened.

The process of decommissioning will begin no later than the first week of 2022.

Torness

Torness Power Station is also run by EDF Energy. The plant is located on the east coast of Scotland, 33 miles east of Edinburgh, and is capable of supplying electricity to over two million UK homes. The plant opened in 1988, and has an estimated end of generation date of 2030.

The plant has a visitor centre, where people can see the reactor from the viewing gallery.

Hartlepool

Hartlepool power station is located on the north east coast of England, and was opened in 1983. The station is scheduled to be decommissioned in March 2024.

The station made national headlines in 2013 when a small fire broke out in the turbine hall of unit two. The fire was caused by an oil leak. Reactor two was shut down, mitigating any threat of nuclear contamination.