- National Research Universal Reactor
The National Research Universal (NRU) reactor, located in
Chalk River, Ontario , is one of Canada’s national science facilities. It is a multipurpose science facility that serves three main roles.
# It generates isotopes used to treat or diagnose over 20 million people in 80 countries every year (and, to a lesser extent, other isotopes used for non-medical purposes).
# It is the neutron source for the NRCCanadian Neutron Beam Centre : a materials research centre that grew from the Nobel Prize-winning work ofBertram Brockhouse .
# It is the test bed forAtomic Energy of Canada Limited to develop fuels and materials for theCANDU reactor .Isotopes
With the construction of the earlier
NRX reactor, it was possible for the first time to commercially manufacture isotopes that were not commonly found in nature. In the core of an operating reactor there are billions offree neutron s. By inserting a piece of target material into the core, atoms in the target can capture some of those neutrons and become heavier isotopes. Manufacturing medical isotopes was a Canadian medical innovation in the early 1950s.The NRU reactor continued the legacy of
NRX and today produces more medical isotopes than any facility in the world.
*Cobalt-60 from NRU is used inRadiation therapy machines that treat cancer in 15 million patients in 80 counties each year. [http://www.cna.ca/english/Nuclear_Facts/CNA_Best_Kept_Secret_August04.pdf] The NRU produces about 75% of the global supply [http://www.mds.nordion.com/about/about.htm MDS Nordion - We Make a Difference ] ] . Cobalt-60 emits a lot of energy as it decays, enough to kill a cancer cell.
*Technetium-99m from NRU is used in the diagnosis of 5 million patients each year [http://www.cna.ca/seminar2007/docs/DrCoulombespeech.pdf] , representing about 80 per cent of all nuclear medicine procedures [ [http://www.mds.nordion.com/products/medical-isotopes-molybdenum-99.htm MDS Nordion - Medical Isotopes - Molybdenum-99 ] ] . The NRU produces over half of the world's total supply. Technetium-99m emits less energy as it decays than most gamma emitters, roughly as much as the X-rays from an X-ray tube. This can act as an "in situ" source for a special camera that creates an image of the patient called aSPECT scan . NRU actually produces the more stable parent isotope,molybdenum-99 , which is shipped to medical labs. There it decays intotechnetium-99m , which is separated and used for testing. [See Technetium cow for details.]
*NRU produces xenon-133, iodine-131 and iodine-125, which are used in a variety of diagnostic and therapeutic applications.
*Carbon-14 produced in NRU is sold to chemistry, bioscience and environmental labs to use as a tracer.
* Iridium-192 from NRU is used in several industries to inspect welds or other metal components to ensure they are safe for use.The core of the NRU reactor is about 3 m wide and 3 m high, which is unusually large for a research reactor. That large volume enables the bulk production of isotopes. Other research reactors in the world produce isotopes for medical and industrial uses, for example the European High Flux Reactor at Petten in the Netherlands, and the
OPAL reactor in Australia which began operation in April 2007.Neutron Beam Research
The NRU reactor is home to Canada's national facility for
Neutron scattering : the NRCCanadian Neutron Beam Centre .Neutron scattering is a technique where a beam of neutrons shines through a sample of material, and depending on how the neutrons scatter from the atoms inside, scientists can determine many details about the crystal structure and movements of the atoms within the sample.An early pioneer of the technique was
Bertram Brockhouse who built some of the early neutron spectrometers in theNRX and NRU reactors and was awarded the 1994 Nobel Prize in physics for the development of neutron spectroscopy. [ [http://nobelprize.org/nobel_prizes/physics/laureates/1994/ Physics 1994 ] ]The NRC
Canadian Neutron Beam Centre continues that field of science today, operating as an open-access user facility allowing scientists from across Canada and around the world to use neutrons in their research programs.It is common for a developed country to support a national facility for
Neutron scattering and one for X-ray scattering. The two types of facility provide complementary information about materials.An unusual feature of the NRU reactor as Canada's national neutron source is its multipurpose design: able to manufacture isotopes, and support nuclear R&D at the same time as it supplies neutrons to the suite of
Neutron scattering instruments.The NRU reactor is sometimes (incorrectly) characterized as simply a "nuclear" research facility.
Neutron scattering however is not nuclear research, it is "materials research". Neutrons are an ideal probe of materials including metals, alloys, biomaterials, ceramics, magnetic materials, minerals, polymers, composites, glasses, nano-materials and many others. The neutron scattering instruments at the NRCCanadian Neutron Beam Centre are used by universities and industries from across Canada every year because knowledge of materials is important for innovation in many sectors. [ [http://neutron.nrc-cnrc.gc.ca/home_e.html Welcome to the Canadian Neutron Beam Centre - Canadian Neutron Beam Centre ] ]Nuclear Power R&D
The NRU reactor has test facilities built into its core that can replicate conditions inside a large electricity-producing reactor. NRU itself does not generate steam (or electricity); its cooling water heats up to approximately 55 degrees Celsius. Inside the test facilities though, high temperatures and pressures can be produced. It is essential to test out different materials before they are used in the construction of a nuclear generating station.
The fundamental knowledge gained from NRU enabled the development of the
CANDU reactor , and is the foundation for the Canadian nuclear industry.History
The NRU reactor design was started in
1949 , and is fundamentally a Canadian design, significantly advanced fromNRX . It was built as the successor to theNRX reactor at the Atomic Energy Project of theNational Research Council of Canada atChalk River Laboratories . TheNRX reactor was the world's most intense source ofneutron s when it started operation in 1947 and had attracted a large scientific community who were using those neutrons in research that was then possible for the first time. W. Eggleston, Canada's Nuclear Story, Pub. Clarke Irwin and Co. 1965] It was not known how long a research reactor could be expected to operate so the management of Chalk River Laboratories began planning the NRU reactor to ensure continuity of the research programs.NRU started self-sustained operation (or went "critical") on November 3,
1957 , a decade afterNRX , and was ten times more powerful. It was initially designed as a 200 MW reactor, fuelled withnatural uranium . NRU was converted to 60 MW with high-enriched uranium (HEU ) fuel in1964 and converted a third time in1991 to 135 MW running on low-enriched uranium (LEU ) fuel.On 24 May
1958 the NRU suffered a major accident. [ [http://www.nuclearfaq.ca/cnf_sectionD.htm#nru1958 The Canadian Nuclear FAQ - Section D: Safety and Liability ] ] [ [http://archives.cbc.ca/IDCC-1-75-104-911/science_technology/candu/ An accident at NRU - Candu: The Canadian Nuclear Reactor - Science and Technology - CBC Archives ] ] A damaged uraniumfuel rod caught fire and was torn in two as it was being removed from the core. The fire was extinguished, but a sizeable quantity ofradioactive combustion products had contaminated the interior of the reactor building and, to a lesser degree, an area of the surrounding laboratory site. The clean-up and repair took three months. NRU was operating again in August 1958. Care was taken to ensure no one was exposed to dangerous levels of radiation and staff involved in clean-up were monitored over the following decades. [Myers, D.K., Morrison, D.P. and Werner, M.M., "Follow-up of AECL employees involved in the decontamination of NRU in 1958", AECL Report, AECL-7901, 1982 September 1.] No health effects were observed.NRU's calandria, the vessel which contains its nuclear reactions, is made of
aluminum , and was replaced in 1971 because of corrosion. But it has not been replaced since, although this second replacement is likely needed. A complete shutdown of perhaps one year would be needed for the replacement. One strong advantage of NRU's design is that it can be taken apart to allow for replacements such as this. SinceNRX was decommissioned in 1992, after 45 years of service, there has been no backup for NRU.In October 1986, the NRU reactor was recognized as a Nuclear Historic Landmark by the
American Nuclear Society . [ [http://www.ans.org/honors/recipients/va-nuclandmark ANS : Honors and Awards : Recipients : Nuclear Historic Landmark Award ] ]In
1994 ,Bertram Brockhouse was awarded theNobel Prize in Physics , for his pioneering work carried out in theNRX and NRU reactors in the 1950s. He gave birth to a scientific technique which is now used around the world. [ [http://neutron.nrc-cnrc.gc.ca/brock_e.html Brockhouse and the Nobel Prize - Canadian Neutron Beam Centre ] ]In
1996 ,AECL informed theCanadian Nuclear Safety Commission (then known as theAtomic Energy Control Board ) that operation of the NRU reactor would not continue beyond December 31,2005 . It was expected that a replacement facility would be built inside that time. However, no replacement was built and in2003 , AECL advised the CNSC that they intended to continue operation of the NRU reactor beyond December2005 . The operating licence was initially extended toJuly 31 , 2006, and a 63-month licence renewal was obtained in July 2006, allowing full operating of NRU untilOctober 31 , 2011. [ [http://www.aecl.ca/NewsRoom/News/Press-2006/060731.htm "CNSC Approves Renewal of AECL's Chalk River Site Operating Licence"] AECL, July 31, 2006. URL accessed August 8, 2006.]In May 2007, the NRU reactor set a new record for the production of medical isotopes. [ [http://www.aecl.ca/NewsRoom/Bulletins/E-0706/E05.htm Email Bulletin - 2007 June - Nearing 50, National Research Universal Still Setting Records ] ]
In June 2007, a new
neutron scattering instrument was opened in NRU. [ [http://neutron.nrc-cnrc.gc.ca/news/reflectom_e.html Canada's first Neutron Reflectometer Officially Open - Canadian Neutron Beam Centre ] ] The D3 Neutron Reflectometer is designed for examining surfaces, thin films and interfaces. The technique ofNeutron Reflectometry is relatively new, and capable of providing unique information on materials in the nanometre length scale.2007 shutdown
On November 18, 2007, the National Research Universal reactor, which makes medical radioisotopes, was shut down for routine maintenance. This shutdown was extended when AECL decided to install seismically-qualified emergency power systems (EPS) to two of the reactor's cooling pumps (in addition to the AC and DC backup power systems already in place), which had been required as part of its August 2006 operating license issued by the
Canadian Nuclear Safety Commission (CNSC). This resulted in a worldwide shortage of radioisotopes for medical treatments because Chalk River makes the majority of the world's supply of radioisotopes, including two-thirds of the world'stechnetium-99 [http://www.nrc-cnrc.gc.ca/highlights/2006/0605chalkriver_e.html] . On December 11, 2007, theCanadian House of Commons , acting on independent expert advice, passed emergency legislation authorizing the restarting of the NRU reactor with one of the two seismic connections complete (one pump being sufficient to cool the core), and the reactor's operation for 120 days (counter to the decision of the CNSC). The legislation, C-38, was passed by the Senate and received Royal Assent on December 12. Prime MinisterStephen Harper accused the "Liberal-appointed" CNSC for this shutdown which "jeopardized the health and safety of tens of thousands of Canadians". [http://www.theglobeandmail.com/servlet/story/RTGAM.20071211.wisotope1211/BNStory/National/] [http://www.reuters.com/article/scienceNews/idUSN1154689120071213] [http://www.thestar.com/News/Canada/article/285210] [http://www.cbc.ca/canada/story/2007/12/13/chalk-river-reactor.html]The NRU reactor was restarted on December 16, 2007.
On January 29, 2008, the former President of the CNSC, Linda Keen, testified before a Parliamentary Committee that the risk of fuel failure in the NRU reactor was "1 in 1000 years", and claimed this to be a thousand times less than the "international standard". These claims were refuted by AECL. [ [http://www.aecl.ca/NewsRoom/News/Press-2008/080129.htm 2008 News Releases - AECL Clarifies Inaccurate Statements by Former CNSC CEO Linda Keen ] ]
On February 2, 2008 the second seismic connection was complete. This timing was well within the above 120-day window afforded by Bill C-38.
References
See also
*
Nuclear reactor
*Nuclear fission
*Nuclear medicine
*Radiation therapy
*Neutron scattering
*Bertram Brockhouse
*Nuclear power plant
*Nuclear power
*Nuclear accident
*Nuclear waste External links
* [http://www.NRUreactor.ca/ The NRU Reactor]
* [http://neutron.nrc.gc.ca NRC Canadian Neutron Beam Centre]
* [http://hyperphysics.phy-astr.gsu.edu/hbase/nucene/nucacc.html Nuclear Accidents (Georgia State University)]
* [http://www.nuclearfaq.ca "The Canadian Nuclear FAQ"] by Dr. Jeremy Whitlock (in particular see the section [http://www.nuclearfaq.ca/cnf_sectionD.htm#nru-safety "NRU Safety"] regarding the Nov-Dec 2007 shutdown of isotope production)
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