Established | 1 January 1946 |
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Location | Harwell, Oxfordshire, United Kingdom 51°34′52″N1°18′18″W / 51.581°N 1.305°W |
The Atomic Energy Research Establishment (AERE), also known as Harwell Laboratory, was the main centre for atomic energy research and development in the United Kingdom from 1946 to the 1990s. It was created, owned and funded by the British Government.
A number of early research reactors were built here starting with GLEEP in 1947 to provide the underlying science and technology behind the design and building of Britain's nuclear reactors such as the Windscale Piles and Calder Hall nuclear power station. To support this an extensive array of research and design laboratories were built to enable research into all aspects of nuclear reactor and fuel design, and the development of pilot plants for fuel reprocessing. The site became a major employer in the Oxford area.
In the 1990s demand for government-led research had significantly decreased and the site was subsequently gradually diversified to allow private investment, and was known from 2006 as the Harwell Science and Innovation Campus.
In 1945 John Cockcroft was asked to set up a research laboratory to further the use of nuclear fission for both military purposes and generating energy. The criteria for selection involved finding somewhere remote with a good water supply, but within reach of good transport links and a university with a nuclear physics laboratory. This more or less limited the choice to the areas around Oxford or Cambridge. It had been decided that an RAF airfield would be chosen, the aircraft hangars being ideal to house the large atomic piles that would need to be built. Although Cambridge University had the better nuclear physics facility (the Cavendish Laboratory), the RAF did not want to abandon any of its eastern airfields because of its potential involvement in the Cold War, therefore Harwell was chosen when the RAF made the airfield available. RAF Harwell was sixteen miles south of Oxford near Didcot and Harwell (at this time in Berkshire), and on 1 January 1946 the Atomic Energy Research Establishment was formed, coming under the Ministry of Supply. The scientists mostly took over both accommodations and work buildings from the departing RAF.
The early laboratory had several specialist divisions: Chemistry (initially headed by Egon Bretscher, later by Robert Spence, General Physics (H.W.B. Skinner), Nuclear Physics (initially headed by Otto Frisch, later E. Bretscher), Reactor Physics (John Dunworth), Theoretical Physics (Klaus Fuchs, later Brian Flowers and Walter Marshall), Isotopes (Henry Seligmann), Engineering (Harold Tongue, later Robert Jackson), Chemical Engineering (A.S. White), and Metallurgy (Bruce Chalmers, later Monty Finniston, FRS). Finniston was later to become chairman of the British Steel Corporation. Directors after Cockcroft included Basil Schonland, Sir Arthur Vick and Walter Marshall.
The decision to site AERE at Harwell had huge implications for a rural area which had depended mainly on agriculture for employment before World War II. The site (which quickly became known colloquially amongst the local population as 'The Atomic') became one of the main employers in the post-war period. It also led to an influx of labour from outside the area, putting pressure on already scarce housing stocks. In response to the problem, hostels and temporary housing were established around the site. The hostels were named Icknield Way House ('B' mess, the RAF sergeants' mess), Portway House ('C' Mess, the RAF airmans' mess) and Ridgeway House ('A' Mess, the officers' mess) provided either single or double room accommodation for staff and were adopted from existing RAF structures on the site. The class distinction was maintained by the UKAEA. A-Mess housed visiting scientists, B-Mess scientific support staff and some post-graduate scientists, and C-Mess industrial support staff. The temporary housing stock consisted of several hundred 'Prefabs', single storey structures manufactured in parts for quick erection, which were designed originally to help alleviate chronic housing shortages in the immediate post-war period in Britain. Two estates of 'Prefabs' were built to the north and south of the site perimeter, along with a road system and parade of shops. In later years, conventional housing was provided on estates built in Abingdon, Grove (near Wantage) and Newbury for employees. A modern hostel (Rush Common House) was built in Abingdon. The houses were later sold (mainly to their occupants) in the 1980s and the hostels were demolished or adapted for other uses. The 'Prefab' estates lasted until the early 1990s when the residents were transferred to local authority housing. The RAF prewar NCO married quarter housing at Harwell together other UKAEA housing in Abingdon, Grove, Wantage and Newbury totaling 129 houses were sold in their entirety to the Welbeck Estate Group in 1995 and following extensive refurbishment were sold to local buyers.[ citation needed ]
The remote nature of the Harwell site required AERE workers to be transported by shuttle bus. By 1956, nine contractors to AERE operated a total of 47 mostly second-hand buses and coaches on 41 staff shuttle services, which operated 24 hours a day to shuttle workers as far as Oxford, Newbury, Reading and Swindon to the Harwell site. These buses were initially painted in utilitarian Ministry of Supply grey livery, however by the mid-1950s, the AERE fleet began adopting an azure blue and grey livery with 'AERE' signwriting. [1]
Such was the interest in nuclear power and the priority devoted to it in those days that the first reactor, GLEEP, was operating by 15 August 1947. GLEEP (Graphite Low Energy Experimental Pile) was a low-power (3 kilowatt) graphite-moderated air-cooled reactor. The first reactor in Western Europe, it operated until 1990.
A successor to GLEEP, called BEPO (British Experimental Pile 0) was constructed based on the experience with GLEEP, and commenced operation in 1948. At 6 MW, BEPO was much more powerful than GLEEP. [2] The engineers at Harwell eventually decided that this small reactor should be put to some use, so the air that flowed over it was directed through an underground trench, where there were some pipes filled with water that connected to a secondary group of water-filled pipes that were used by the nearby establishments to heat offices. [3] This was the first use of nuclear district heating in the UK. BEPO was shut down in 1968.
LIDO was an enriched uranium thermal swimming pool reactor which operated from 1956 to 1972 and was mainly used for shielding and nuclear physics experiments. It was fully dismantled and returned to a green field site in 1995. In the same building as LIDO, DAPHNE (Dido And Pluto Handmaiden for Nuclear Experiments) was constructed to test equipment used in experiments on the two larger reactors.
A pair of larger 26 MW reactors, DIDO and PLUTO, which used enriched uranium with a heavy water moderator came online in 1956 and 1957 respectively. These reactors were used primarily for testing the behaviour of different materials under intense neutron irradiation to help decide what materials to build reactor components out of. A sample could be irradiated for a few months to simulate the radiation dose that it would receive over the lifetime of a power reactor. Both reactors were also used for neutron scattering crystallography. They took over commercial isotope production from BEPO after that was shut down. DIDO and PLUTO themselves were shut down in 1990 and the fuel, moderator and some ancillary buildings removed. The GLEEP reactor and the hangar it was situated in were decommissioned 2005. The current plans are to decommission the BEPO, DIDO and PLUTO reactors by 2020.[ citation needed ]
One of the most significant experiments to occur at AERE was the ZETA fusion power experiment. An early attempt to build a large-scale nuclear fusion reactor, the project was started in 1954, and the first successes were achieved in 1957. In 1968 the project was shut down, as it was believed that no further progress could be made with the kind of design that ZETA represented (see Timeline of nuclear fusion).
In 1954 AERE was incorporated into the newly formed United Kingdom Atomic Energy Authority (UKAEA). Harwell and other laboratories were to assume responsibility for atomic energy research and development. It was part of the Department of Trade and Industry (DTI).
During the 1970s the slowdown of the British nuclear energy program resulted in a greatly reduced demand for the kind of work being done by the UKAEA. Pressures on government spending also reduced the funding available. Reluctant to merely disband a quality scientific research organisation, UKAEA was required to divert its research effort to the solving of scientific problems for industry by providing paid consultancy or services. For example, an Operations Research Group was set up at Harwell, and developed shipping fleet scheduling software that was used to provide a service to British and overseas shipping companies [4] and oil reservoir simulation software to help in the development of the UK's North Sea oil interests. [5] UKAEA was ordered to operate on a Trading Fund basis, i.e. to account for itself financially as though it was a private corporation, while remaining fully government owned. After several years of transition, UKAEA was divided in the early 1990s. UKAEA retained ownership of all land and infrastructure and of all nuclear facilities, and of businesses directly related to nuclear power. The remainder was privatised as AEA Technology and floated on the London Stock Exchange. Harwell Laboratory contained elements of both organisations, though the land and infrastructure was owned by UKAEA.
The name Atomic Energy Research Establishment was dropped at the same time, and the site became known as the Harwell International Business Centre. The site incorporates the Rutherford Appleton Laboratory which is home to the Science and Technology Facilities Council (including the ISIS neutron source and Diamond Light Source). In 2006, the name Harwell Science and Innovation Campus was introduced and management of the campus was passed to a Public / Private 50:50 Joint Venture partnership to take forward the management and redevelopment of the campus which has been re-branded as Harwell Oxford. In February 2009, part of the campus, the remaining nuclear licensed site, passed to the Nuclear Decommissioning Authority and is being decommissioned by Research Sites Restoration Limited (RSRL, from 2015 part of Magnox Ltd), on their behalf.
Sir John Douglas Cockcroft was an English physicist who shared the 1951 Nobel Prize in Physics with Ernest Walton for splitting the atomic nucleus, which was instrumental in the development of nuclear power.
The United Kingdom Atomic Energy Authority is a UK government research organisation responsible for the development of fusion energy. It is an executive non-departmental public body of the Department for Energy Security and Net Zero (DESNZ).
DIDO was a materials testing nuclear reactor at the Atomic Energy Research Establishment at Harwell, Oxfordshire in the United Kingdom. It used enriched uranium metal fuel, and heavy water as both neutron moderator and primary coolant. There was also a graphite neutron reflector surrounding the core. In the design phase, DIDO was known as AE334 after its engineering design number.
PLUTO was a materials testing nuclear reactor housed at the Atomic Energy Research Establishment, a former Royal Air Force airfield at Harwell, Oxfordshire in the United Kingdom.
ZETA, short for Zero Energy Thermonuclear Assembly, was a major experiment in the early history of fusion power research. Based on the pinch plasma confinement technique, and built at the Atomic Energy Research Establishment in the United Kingdom, ZETA was larger and more powerful than any fusion machine in the world at that time. Its goal was to produce large numbers of fusion reactions, although it was not large enough to produce net energy.
GLEEP, which stood for Graphite Low Energy Experimental Pile, was a long-lived experimental nuclear reactor in Oxfordshire, England. Reaching criticality for the first time on 15 August 1947, it was the first reactor to operate in western Europe, and the second in Eurusian, beat only by the F-1 in the USSR.
Rendel Sebastian "Bas" Pease FRS was a British physicist who strongly opposed nuclear weapons while advocating the use of nuclear fusion as a clean source of power.
Winfrith Atomic Energy Establishment, or AEE Winfrith, was a United Kingdom Atomic Energy Authority site near Winfrith Newburgh in Dorset. It covered an area on Winfrith Heath to the west of the village of Wool between the A352 road and the South West Main Line.
Egon Bretscher was a Swiss-born British chemist and nuclear physicist and Head of the Nuclear Physics Division from 1948 to 1966 at the Atomic Energy Research Establishment, also known as Harwell Laboratory, in Harwell, United Kingdom. He was one of the pioneers in nuclear fission research and one of the first to foresee that plutonium could be used as an energy source. His work on nuclear physics led to his involvement in the British atomic bomb research project Tube Alloys and his membership of the British Mission to the Manhattan Project at Los Alamos, where he worked in Enrico Fermi's Advanced Development Division in the F-3 Super Experimentation group. His contributions up to 1945 are discussed by Margaret Gowing in her "Britain and Atomic Energy, 1935-1945."
The Harwell Science and Innovation Campus is a 700-acre science and technology campus in Oxfordshire, England. Over 6,000 people work there in over 240 public and private sector organisations, working across sectors including Space, Clean Energy, Life Sciences and Quantum Computing.
John David Lawson FRS was a British engineer and physicist.
A neutron research facility is most commonly a big laboratory operating a large-scale neutron source that provides thermal neutrons to a suite of research instruments. The neutron source usually is a research reactor or a spallation source. In some cases, a smaller facility will provide high energy neutrons using existing neutron generator technologies.
Herbert Wakefield Banks Skinner was a British physicist.
Derek Charles Robinson FRS was a physicist who worked in the UK fusion power program for most of his professional career. Studying turbulence in the UK's ZETA reactor, he helped develop the reversed field pinch concept, an area of study to this day. He is best known for his role in taking a critical measurement on the T-3 device in the USSR in 1969 that established the tokamak as the primary magnetic fusion energy device to this day. He was also instrumental in the development of the spherical tokamak design though the construction of the START device, and its follow-on, MAST. Robinson was in charge of portions of the UK Atomic Energy Authority's fusion program from 1979 until he took over the entire program in 1996 before his death in 2002.
The Harwell Synchrocyclotron was a particle accelerator based at the Atomic Energy Research Establishment campus near Harwell, Oxfordshire. Construction of the accelerator began in 1946 and it was completed in 1949. The machine was of the synchrocyclotron design, with a 1.62T magnet of diameter 110" (2.8m) allowing protons to be accelerated to energies of 160-175MeV. Accelerator physicist John Adams, who later went on to lead design of CERN's SPS, was instrumental in the design and construction of this machine. Its main function was basic nuclear and particle physics research, with a focus on proton-proton and proton-neutron scattering.
The Culham Centre for Fusion Energy (CCFE) is the UK's national laboratory for fusion research. It is located at the Culham Science Centre, near Culham, Oxfordshire, and is the site of the Mega Ampere Spherical Tokamak (MAST) and the now closed Joint European Torus (JET) and Small Tight Aspect Ratio Tokamak (START).
George Leon Weil was an American physicist. On December 2, 1942, he removed the control rod from the Chicago Pile-1 nuclear reactor, initiating the first man-made, self-sustaining nuclear chain reaction.
High Explosive Research (HER) was the British project to develop atomic bombs independently after the Second World War. This decision was taken by a cabinet sub-committee on 8 January 1947, in response to apprehension of an American return to isolationism, fears that Britain might lose its great power status, and the actions by the United States to withdraw unilaterally from sharing of nuclear technology under the 1943 Quebec Agreement. The decision was publicly announced in the House of Commons on 12 May 1948.
The Intermediate-Current Stability Experiment, or ICSE, was a magnetic fusion energy reactor designed by the UKAEA ("Harwell") design team. It was intended to be the follow-on design to the ZETA, incorporating a high-speed current pulse system that was expected to improve the stability of the plasma and allow fusion reactions to take place. Construction began in 1959, starting with its building known as "D-1", but Harwell's new director expressed concerns about some of the theoretical assumptions being made about the design, the project was canceled in August 1960. Parts that were already built were scavenged by other teams.
The Windscale Piles were two air-cooled graphite-moderated nuclear reactors on the Windscale nuclear site in Cumberland on the north-west coast of England. The two reactors, referred to at the time as "piles", were built as part of the British post-war atomic bomb project and produced weapons-grade plutonium for use in nuclear weapons.