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Saferty of actinides in the nuclear fuel cycle, 1992-1994

Das Projekt "Saferty of actinides in the nuclear fuel cycle, 1992-1994" wird vom Umweltbundesamt gefördert und von European Commission, Joint Research Centre (JRC). Institute for Transuranium Elements (ITU) durchgeführt. Objective: To carry out safety studies with nuclear fuels under long-term and off-normal conditions, to evaluate and reduce risks associated with storing and handling actinides, to carry out basic solid state studies on actinides and collect data and bibliographic references on properties and applications of transuranium elements. General Information: Progress to end 1991. The Institute continued efforts to contribute to the safety of nuclear fission by concentrating its research activities on investigations of the behaviour of nuclear fuel after prolonged irradiation and under variable reactor operating conditions. Mechanism for the release of fission products from irradiated fuel were further elucidated, and the formation of particular structural features which may limit the fuel lifetime were better understood. First results of the post-irradiation examination of nitride fuels irradiated in the Fench PHENIX reactor were obtained, demonstrating the technological potential and the limitations of this fuel type. The measurement of the physical fuel properties of nuclear fuels at extremely high temperatures was continued, and first results of the thermal expansion of uranium dioxide for above its melting temperature were obtained. A facility was installed in order to study possibilities of (nuclear) aerosol agglomeration under dynamic conditions in a high-power acoustic field at ultrasonic and audible frequencies. Mixed oxide fuel rods containing minor actinides (MA), which had been irradiated in a fast reactor (PHENIX) in order to study possibilities of MA transmutation, were analysed. Np-based specimens, mostly in the form of single crystals, were prepared for basic experimental solid state physics studies at the Institute and in various overseas and European laboratories. Progress was made in understanding the electronic structure of transuranium elements and their compounds by further development of theories and experimental efforts in high-pressure research and photoelectron spectroscopy. Equipment for Moessbauer spectroscopy and for other physical property measurements at cryogenic temperatures was installed in the new transuranium research user facility. Work to adapt instruments and methods developed at the Institute in the frame of the above programme (fast multi-colour pyrometry and enhancement of industrial filter efficiency) to industrial application was continued, together with partners from industry. Four patent proposals (on acoustically enhanced off-gas scrubbing, on laser-enhanced extraction, on production methods for Ac-225 and Bi-213, and on the preparation of amorphous substances) were filed in 1991. 42 articles in scientific-technical journals were published (or submitted for publication) and 82 lectures were given in conferences on various subjects dealing with the safety of actinides in the nuclear fuel cycle in 1991. Detailed description of work foreseen in 1992 (expected results). Studies of fission product migration ...

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