An approach to the comparative assessment of the impact of accidental radioactive emissions on the biota and radioecological validation of nuclear fuel cycle objects is presented. It is shown that the dose loads on woody tier in a coniferous forest as a result of severe accidents in NPPs with PWR-890, BWR-1412, and EPR-1600 significantly exceed the limit recommended by the ICRP. The impact of the radiation factor can result in serious disturbances in forest ecosystems in the immediate vicinity of NPPs.
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References
E. O. Adamov, A. V. Dzhalavyan, A. V. Lopatkin, et al., “Conceptual positions of the strategy for the development of nuclear power in Russia up to 2100,” At. Energ., 112, No. 6, 319–330 (2012).
Radiation Protection and Safety of Radiation Sources: International Basic Safety Standards, IAEA, Vienna (2014).
R. M. Aleksakhin, “Pressing environmental problems of nuclear power,” At. Energ., 114, No. 5, 243–249 (2013).
S. I. Spiridonov, R. M. Aleksakhin, and E. V. Spirin, “Generalized approach for comparative evaluation of the radiative effect of nuclear nuclear fuel cycles on biota,” At. Energ., 118, No. 6, 340–345 (2015).
S. I. Spiridonov, R. M. Aleksakhin, and E. V. Spirin, “Integral indices of the radiation impact of open and closed fuel cycle objects on the general public,” At. Energ., 118, No. 1, 47–54 (2015).
Nuclear Power Reactors in the World, IAEA, Vienna (2016).
State-of-the-Art Reactor Consequence Analyses Project, Vol. 2, Surry Integrated Analysis, NUREG/CR-7110 (2012).
State-of-the-Art Reactor Consequence Analyses Project, Vol. 1, Peach Bottom Integrated Analysis, NUREG/CR-7110 (2012).
Hinkley Point C Pre-Construction Safety Report, Chpt. 15-4, NNB Generation Company Limited, United Kingdom (2012).
Environmental Protection: the Concept and Use of Reference Animals and Plants, ICRP Publication 108, Annals of the ICRP, 38, No. 4–6 (2008).
A. N. Perevolotskii, E. A. Goncharov, and T. V. Perevolotskaya, “On modeling the distribution of radionuclides in forest biogeocenoses,” Rad. Biol. Radioekol., 56, No. 6, 655–663 (2016).
S. I. Spiridonov and R. A. Mikailova, “Evaluation of radio-environmental risks for natural ecosystems attending accidental emissions from the nuclear fuel cycle,” Rad. Biol. Radioekol., 55, No. 2, 197–206 (2015).
N. G. Gusev and V. A. Belyaev, Handbook of Radioactive Emissions into the Biosphere, Energoatomizdat, Moscow (1991).
J. Vives i Batlle, S. Jones, and D. Copplestone, “A method for estimating 41Ar, 85,88Kr, and 131m,133Xe doses to non-human biota,” J. Environ. Radioact., 144, 152–161 (2015).
Procedure for Designing and Establishing Standards for the Maximum Admissible Emissions of Radioactive Substance into Air, Vol. 2, Technical Applications and Recommendations for Calculations, appr. by Rostekhnadzor, Order No. 639 of Nov. 7, 2012, reg. by Russ. Ministry of Justice, Jan. 18, 2012.
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Translated from Atomnaya Énergiya, Vol. 123, No. 3, pp. 165–170, September, 2017.
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Mikailova, R.A., Spiridonov, S.I. Irradiation Dose of the Woody Tier of a Coniferous Forest Due to Accidental Emissions from NPP. At Energy 123, 202–208 (2018). https://doi.org/10.1007/s10512-018-0325-5
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DOI: https://doi.org/10.1007/s10512-018-0325-5