- Institute for Transuranium Elements
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The Institute for Transuranium Elements (ITU) is a European Commission nuclear research institute in Karlsruhe, Germany. The ITU is one of the seven institutes of the Joint Research Centre (JRC), a Directorate-General of the European Commission (EC). The ITU has about 300 staff. Its specialists have access to an extensive range of advanced facilities, many unavailable elsewhere in Europe.
Contents
Mission statement
The mission of ITU is to provide the scientific foundation for the protection of the European citizen against risks associated with the handling and storage of highly radioactive material. ITU’s prime objectives are to serve as a reference centre for basic actinide research, to contribute to an effective safety and safeguards system for the nuclear fuel cycle, and to study technological and medical applications of radionuclides/actinides.
Security
Normally entry for visitors to the ITU is by prior invitation only for security reasons; a person wishing to enter the site as a visitor will be required to hand over their passport, before passing through a combined metal and radiation detector. The details of the devices used to test visitors for radioactive and nuclear materials are not public knowledge (for security reasons). Also on entry visitors are subject to a search by a security officer. All bags are examined using an x-ray machine similar to that used in an airport. The effectiveness of any of these devices is unknown; no explosive devices have been smuggled in (or, at least, not exploded on the site), and nobody has been caught illegally removing radioactive materials from the site.
Activities
The work of the ITU can be divided into a series of smaller activities.
Alpha-immunotherapy
A cancer treatment involving the production of antibodies bearing alpha emitting radioisotopes which bind to cancer cells.[1] The idea is to create a "magic bullet" which will seek and destroy cancer where ever it is hidden within the body.[2] This treatment has reached clinical trials.
Bismuth-213 is one of the isotopes which has been used: this is made by the alpha decay of Ac-225. The production of short-lived isotopes from the decay of longer lived isotopes is very useful. This is similar to the generation of technetium-99m by a technetium cow. The actinium-225 is made by the irradiation of radium-226 with a cyclotron.
Basic actinide research
Work has included the superconductivity and magnetic properties of actinides (such as plutonium and americium).[3]
Safety of nuclear fuel
The ITU is involved in a range of different areas of research within this topic.[4]
Accidents
The ITU's work includes the study of fuel behaviour during 'out of control nuclear-reactor' conditions.
In the 2004 annual report from the ITU some results of the PIE on PHEBUS (FPT2) fuel are reported in section 3.6.[5][6] PHEBUS is a series of experiments where fuel was overheated and damaged under very strictly controlled conditions, in order to obtain data on what would happen in a serious nuclear power reactor accident.
Waste forms
The long term performance of waste and the systems designed to isolate it from man and his environment are studied here. For instance the corrosion of uranium dioxide is studied at the ITU.
Spent fuel characterisation
The ITU performs Post Irradiation Examination of spent nuclear fuel.
Partitioning and transmutation
Partitioning is the separation of nuclear wastes into different elements,[7] see nuclear reprocessing for more details. The ITU is involved in both aqueous and pyro separation methods. They have published papers on the DIAMEX process.[8][9]
See nuclear transmutation for details.
Measurement of Radioactivity in the environment
The ITU is funded by the European Union, and theoretically has no pronuclear or antinuclear policy. It exists to serve the interests of the whole of the EU. It is well equipped and is considered to be both trustworthy and competent by both the nuclear industry and the environmentalists (such as greenpeace).[citation needed] The ITU are able to examine environmental samples in order to decide if dangerous levels of radioactive contamination are present. For instance hot particles found on a beach in Scotland near Dounreay were examined at the ITU.
Much of this work is aimed at the measurement of very low levels of radioactivity; the ITU's analytical service uses ICP-MS to measure most radioactive isotopes with greater sensitivity than those possible with direct radiometric measurements.[10]
Nuclear safeguards
The ITU has a service which assists police and other law enforcement organisiations by examining any seized radioactive or nuclear material. Materials are analysed to discover what they are, where they come from, and what possible use they might have been.
NUCLEONICA
The ITU maintains a website for the colloborative study and dissemination of information related to nuclear material and technology. Specifically, NUCLEONICA is a new nuclear science web portal from the European Commission’s Joint Research Centre. The portal provides a customisable, integrated environment and collaboration platform for the nuclear sciences using the latest internet “Web 2.0” dynamic technology. NUCLEONICA is aimed at professionals, academics and students working with radionuclides in fields as diverse as the life sciences (e.g. biology, medicine, agriculture), the earth sciences (geology, meteorology, environmental science) and the more traditional disciplines such as nuclear power, health physics and radiation protection, nuclear and radiochemistry, and astrophysics.
A unique feature of the portal is the wide range of user friendly web-based nuclear science applications. The portal is also ideal for education and training purposes and as a knowledge management platform to preserve nuclear knowledge built up over many decades. The Nucleonica website and applications are supported by a dedicated nuclear science wiki – the NucleonicaWiki and NucleonicaBlog.
Karlsruhe Nuclide Chart
In addition to the NUCLEONICA website, the Institute for Transuranium Elements manages the various versions and editions of the Karlsruhe Nuclide Chart.
Other JRC sites
- Institute for Reference Materials and Measurements (IRMM)
- Institute for the Protection and the Security of the Citizen (IPSC)
- Institute for Environment and Sustainability (IES)
- Institute for Health and Consumer Protection (IHCP)
- Institute for Energy (IE)
- Institute for Prospective Technological Studies (IPTS)
References
- ^ Methods. Itu.jrc.ec.europa.eu (2009-07-13). Retrieved on 2011-04-16.
- ^ Targeted Alpha-Radionuclide Therapy. Itu.jrc.ec.europa.eu (2009-07-13). Retrieved on 2011-04-16.
- ^ Griveau, J.C.; Rebizant, J.; Lander, G.H.; Kotliar, G. (2005). "Superconductivity in Americium Metal as a Function of Pressure: Probing the Mott Transition". Physical Review Letter 94. ISSN 0972002.
- ^ Nuclear Fuels. Itu.jrc.ec.europa.eu. Retrieved on 2011-04-16.
- ^ "ITU04_Vorspann_end. (PDF) . Retrieved on 2011-04-16.
- ^ Topics. Itu.jrc.ec.europa.eu. Retrieved on 2011-04-16.
- ^ Partitioning. Itu.jrc.ec.europa.eu (2009-05-15). Retrieved on 2011-04-16.
- ^ Serrano, D.; Christiansen, B.; Glatz, J.P.; Modolo, R (2005). "Towards a DIAMEX Process Using High Active Concentrate. Production of Genuine Solutions". Radiochimica Acta 93: 357–36.
- ^ Serrano, D.; Baron, P.; Christiansen, B.; Malmbeck, R.; Sorel, C.; Glatz, J.P. (2005). "Recovery of Minor Actinides from HLLW Using the DIAMEX Process". Radiochimica Acta 93: 351–355.
- ^ Radioactivity in the Environment. Itu.jrc.ec.europa.eu. Retrieved on 2011-04-16.
External links
Categories:- Science and technology in Europe
- International research institutes
- Research institutes in Germany
- Nuclear materials
- Nuclear reprocessing sites
- Nuclear technology in Germany
- Nuclear physics
- Nuclear chemistry
- Nuclear research centers
- Nuclear medicine
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