New concept of designing Pu and MA containing fuel for fast reactors

New concept of designing Pu and MA containing fuel for fast reactors

New type of metal base fuel element is suggested for fast reactors. Basic approach to fuel element development – separated operations of fabricating uranium meat fuel element and introducing into it Pu or MA dioxides powder, that results in minimizing dust forming operations in fuel element fabricat...

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Bibliographic Details
Published in:Journal of nuclear materials Vol. 385; no. 1; pp. 148 - 152
Main Authors: Savchenko, A.M., Konovalov, I.I., Vatulin, A.V., Glagovsky, E.M.
Format: Journal Article
Language:English
Published: Elsevier B.V 15-03-2009
Subjects:
68.08.−p
28.41.Bm
61.66.Dk
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Summary:New type of metal base fuel element is suggested for fast reactors. Basic approach to fuel element development – separated operations of fabricating uranium meat fuel element and introducing into it Pu or MA dioxides powder, that results in minimizing dust forming operations in fuel element fabrication. According to new fuel element design a framework fuel element having a porous uranium alloy meat is filled with standard PuO 2 powder of <50 μm fractions prepared by pyrochemical or other methods. In this way a high uranium content fuel meat metallurgically bonded to cladding forms a heat conducting framework, pores of which contain PuO 2 powder. Framework fuel element having porous meat is fabricated by capillary impregnation method with the use of Zr eutectic matrix alloys, which provides metallurgical bond between fuel and cladding and protects it from interaction. As compared to MOX fuel the new one features high thermal conductivity, higher uranium content, hence, high conversion ratio does not interact with fuel cladding and is more environmentally clean. Its principle advantage is a simple production process that is easily realized remotely, feasibility of involving high background Pu and MA isotopes into closed nuclear fuel cycle at the minimal influence on environment.
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ISSN:0022-3115
1873-4820
DOI:10.1016/j.jnucmat.2008.10.035