Hostname: page-component-586b7cd67f-rcrh6 Total loading time: 0 Render date: 2024-11-28T01:20:47.370Z Has data issue: false hasContentIssue false

New paradigm of research on the condition of spent nuclear fuel in accident and dumping sites

Published online by Cambridge University Press:  09 January 2012

V.N. Soyfer
Affiliation:
V.I.Il’ichev Pacific Oceanological Institute Far-Eastern Branch RAS, 690041 Vladivostok, Russia
D.V. Andreev
Affiliation:
Russian Scientific Centre “Kurchatov Institute”, 123182 Moscow, Russia
V.A. Goryachev
Affiliation:
V.I.Il’ichev Pacific Oceanological Institute Far-Eastern Branch RAS, 690041 Vladivostok, Russia
Y.N. Zhukov
Affiliation:
Institute for Navigation and Hydrography, 199106 St. Peterburg, D.M., Russia
I.R. Barabanov
Affiliation:
Institute for Nuclear Research RAS, 117312 Moscow, Russia
E.A. Yanovich
Affiliation:
Institute for Nuclear Research RAS, 117312 Moscow, Russia
Get access

Abstract

The new technologies of operative monitoring of spent nuclear fuel (SNF) condition at the bottom seas and search for the lost objects with SNF at the bottom using Kr-85, are developed. The development of the ship low-level background complex (Kr-85, tritium etc.) for radionuclide anomalies searching in the sea is launched also. The purpose of a carried out stage of researches is the development new paradigm of sea radioecology based on a preliminary experimental research of kinetics of release fission products (85Kr and 137Cs) from SNF, with the subsequent realization expedition (including preliminary radionuclide measurements on a vessel!) and modeling researches of 85Kr transport in near-bottom layer for minimization of points of sampling (stations and working horizons) on the hydrological data of expedition area (with use of a fractal formalism). Final result of the project is the conservative estimation of risks to the population and environment at its pollution in case of release of a radioactivity from dumped ship reactor and NPS with the not unloaded SNF.

Type
Research Article
Copyright
© Owned by the authors, published by EDP Sciences, 2011

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Hentschel H.G.E., Procaccia I. Physical Review A, 29, No3, 1461-1470.
Pavlov V.K., Kulakov M.Y., Stanovoy V.V. In Proceedings AASRI, 442, 180–190 (1999).
Izmalkov V.I. Ecological safety, forecasting methodology of anthropogenous pollution and bases of construction of environmental chemical monitoring. St. Peterburg, 131 p. (1994)
Meneveau C., Sreenivasan K.R. Physical Review Letters 59, No13, 1424-1427 (1987).
Okubo A., Carter H.H. Journal of Geophysical Research. 71, No22, 5267-5270. (1966).
Soyfer V.N., Goryachev V.A., Ponomarev O.V., D.V., Andreev, I.R., Barabanov, E.A., Yanovich, A.P., Borisov. Radioprotection, Suppl. 1, 40: EDP Science, S669–S675. (2005).
Soyfer V.N, D.V. Andreev, M.V. Baryshnikov, I.R. Barabanov, V.A. Goryachev, E.A.Yanovich, Y.N. Zhukov. In Proceedings. of the 6th International Conf. Environmental Radioactivity in the Arctic & Antarctic. Nice, 113–117. (2005)