The High Flux Australian Reactor (HIFAR) was Australia's first

nuclear research reactor Research reactors are nuclear fission-based nuclear reactors that serve primarily as a neutron source. They are also called non-power reactors, in contrast to power reactors that are used for nuclear power plant, electricity production, heat ge ...

. It was built at the

Australian Atomic Energy Commission The Australian Atomic Energy Commission (AAEC) was a statutory body of the Australian Government devoted to nuclear science, engineering and research. It was established in 1952, replacing the Atomic Energy Policy Committee. In 1981, parts of th ...

(AAEC) research establishment at ,

Sydney Sydney is the capital city of the States and territories of Australia, state of New South Wales and the List of cities in Australia by population, most populous city in Australia. Located on Australia's east coast, the metropolis surrounds Syd ...

New South Wales New South Wales (commonly abbreviated as NSW) is a States and territories of Australia, state on the Eastern states of Australia, east coast of :Australia. It borders Queensland to the north, Victoria (state), Victoria to the south, and South ...

. The reactor was in operation between 1958 and 2007, when it was decommissioned and replaced with the multi-purpose

Open-pool Australian lightwater reactor The Open-pool Australian lightwater reactor (OPAL) is a 20 megawatt (MW) swimming pool reactor, swimming pool nuclear research reactor. Officially opened in April 2007, it replaced the High Flux Australian Reactor as Australia's only nuclea ...

(OPAL), also in Lucas Heights. Both HIFAR and its successor OPAL have been known simply as the Lucas Heights reactor.

Background and operation

Based on the DIDO reactor at Harwell in the UK, HIFAR was cooled and moderated by

heavy water Heavy water (deuterium oxide, , ) is a form of water (molecule), water in which hydrogen atoms are all deuterium ( or D, also known as ''heavy hydrogen'') rather than the common hydrogen-1 isotope (, also called ''protium'') that makes up most o ...

( D₂O), and the fuel was

enriched uranium Enriched uranium is a type of uranium in which the percent composition of uranium-235 (written 235U) has been increased through the process of isotope separation. Naturally occurring uranium is composed of three major isotopes: uranium-238 (23 ...

. There was also a graphite neutron reflector surrounding the core. Like DIDO, its original purpose was nuclear materials testing, using its high neutron flux to give materials intended for use in nuclear power reactors their entire expected lifetime neutron exposure in a relatively short period. HIFAR was used for research, particularly

neutron diffraction Neutron diffraction or elastic neutron scattering is the application of neutron scattering to the determination of the atomic and/or magnetic structure of a material. A sample to be examined is placed in a beam of Neutron temperature, thermal or ...

experiments, production of neutron transmutation doped (NTD) silicon, and for production of medical and industrial

radioisotope A radionuclide (radioactive nuclide, radioisotope or radioactive isotope) is a nuclide that has excess numbers of either neutrons or protons, giving it excess nuclear energy, and making it unstable. This excess energy can be used in one of three ...

s. HIFAR went critical at 11:15 pm local time on 26 January 1958, and was first run at full power of 10 MW (thermal) in 1960. The initial fuel was highly enriched uranium, but over the years the enrichment level of new fuel was steadily reduced, in line with international trends designed to reduce the danger of diversion of research reactor fuel for weapons programs. HIFAR completed conversion to low enriched uranium fuel (LEU) in 2006. Of the six DIDO class reactors built including DIDO itself, HIFAR was the last to cease operation. Permanent decommissioning of HIFAR commenced on 30 January 2007 and was expected to be completed by 2025. In the second half of 2023, a licence application for HIFAR Phase A decommissioning was considered by ARPANSA. Phase A decommissioning means decommissioning of the peripheral plant and equipment associated with the reactor. The Phase B decommissioning, licence to which is to be considered at a later time, means demolition of the reactor containment structure and reactor building, rendering the reactor site a green-field site. The full Phase B decommissioning was expected to be completed by about year 2030. On 12 August 2006

(OPAL), the 20 MW replacement reactor located on an adjacent site, went critical. OPAL is served by the same complex of research, isotope production and remote handling laboratories. The two reactors ran in parallel for six months while OPAL was being tested. HIFAR was then permanently shut down and OPAL took over HIFAR's role of Australia's only operating nuclear reactor.

Engineering heritage award

The reactor is listed as a National Engineering Landmark by

Engineers Australia Engineers Australia (EA), known formally as the Institution of Engineers, Australia, is an Australian professional body and Non-profit organization, not-for-profit organisation whose purpose is to advance the science and practice of engineerin ...

as part of its Engineering Heritage Recognition Program.

References

External links

HIFAR
page at ANSTO.
OPAL
page at ANSTO.
HIFAR
page at the private website of a former worker at the site, showing a higher resolution version of the widely distributed diagram {{DEFAULTSORT:Hifar Heavy-water reactors Neutron facilities Nuclear research institutes Nuclear research reactors Science and technology in Australia Nuclear power in Australia Defunct nuclear reactors Lucas Heights, New South Wales 1958 establishments in Australia 2007 disestablishments in Australia Recipients of Engineers Australia engineering heritage markers

Background and operation

Engineering heritage award

See also

References

Further reading

External links