Abstract
The burn up determination of fast reactor fuel is more difficult than for thermal reactors, because a greater number of isotopes fissions. The burn up measurement by fission products needed the determination of fission yields in a fast flux of isotopes contributing considerably to fission. To ease the analysis the sample conditioning was eliminated if applicable. The measurement techniques and the evaluation was automatised. A isotope correlation to check the analysis is mentioned.
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Literatur
P. BRAND et al., EUR-5141e, 1974.
A. ARIEMMA et al., EUR-4638, 1971.
L. KOCH et al., EUR-4690, 1971.
A. M. BRESESTI et al., EUR-4909, 1972.
W. J. MAECK et al., ICP-1058, 1974.
W. J. MAECK, ICP-1050-I, 1975.
W. DAVIES, Radiochimica Acta, 12 (1969) 173.
J. M. CHAUMONT et al., ANS Meeting, Jackson Lake Lodge, Wy., 1973.
L. KOCH et al., EUR (to be published).
L. KOCH, G. COTTONE, M. W. GEERLINGS, Radiochim. Acta, 10 (1968) 122.
L. KOCH, Radiochim. Acta, 12 (1969) 160.
L. KOCH, T. MOY, D. STEINERT, Radiochim. Acta, 19 (1973) 94.
F. GERIN et al., EUR (to be published).
L. KOCH et al., IAEA-SM-201/2 1975.
L. KOCH et al., Proc. Conf. the European Nuclear Soc., Paris, 1975.
D. BOL, B. BRANDALISE, A. BIER, M. de ROSSI, L. KOCH, EUR-5141, 1974.
L. KOCH, R. DE MEESTER, Radiochim. Acta, 15 (1971) 133.
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Koch, L. Entwicklung von Methoden zur Abbrandbestimmung von Kernbrennstoffen in Schnellen Reaktoren. J. Radioanal. Chem. 32, 357–365 (1976). https://doi.org/10.1007/BF02517511
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DOI: https://doi.org/10.1007/BF02517511