Method for assessing the radiation consequences for the environment from accidents at nuclear power plants

1. M. E. Berlyand, Modern Problems in the Atmospheric Diffusion and Contamination of the Atmosphere [in Russian], Gidrometeoizdat, Leningrad (1975).

   Google Scholar 

2. E. A. Ivanov and T. V. Ramzina, “Averaging of the concentration fields of a diffusing impurity in the ground layer of the atmosphere,” in: Radiation Safety and Shielding of Nuclear Power Plants [in Russian], Énergoatomizdat, Moscow (1985), No. 9, pp. 136–143.

   Google Scholar 

3. E. A. Ivanov, G. A. Kirdin, V. F. Kozlov, et al., “Problem of choosing initial data in the problem of predicting the environmental radiation consequences of accidents at nuclear power plants,” in: International Conference of Specialists from Member Countries of the Council for Mutual Economic Aid on the Discussion of the Content of Methods for Estimating the Isotopic Composition, Activity, and Character of Accidental Emission into the Atmosphere as a Function of Time, Activity in the Fuel, and State of Barriers and Safety Systems [in Russian], Varna, People's Republic of Bulgaria, May 7–12 (1990), pp. 137–138.

4. Meteorology and Atomic Energy [in Russian], Gidrometeoizdat, Leningrad (1972).

5. V. F. Kozlov, Handbook of Radiation Safety [in Russian], Énergoatomizdat, Moscow (1991), 4-th edition.

   Google Scholar 

6. V. I. Grishmanovskii, V. F. Kozlov, L. M. Luzanova, et al., “Assessment of radiation consequences of possible hypothetical accidents at nuclear power plants with VVÉR reactors,” At. Énerg.,67, No. 4, 262–266 (1989).

   Google Scholar 

7. Rules and Standards for Radiation Safety in Nuclear Power [in Russian], Moscow (1989), USSR Ministry of Health, Vol. 3.

8. “Taking into account the dispersion parameters of the atmosphere in choosing sites for nuclear power plants,” IAEA Safety Publication No. 50-SG-S3, Vienna (1982).

Download references