Nuclear Engineering and Technology

Korean Nuclear Society (한국원자력학회)
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Influence of Radioactive Contamination to Agricultural Products Due to Rain During a Nuclear Accident

  • Published : 2002.10.01
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Abstract

The previous dynamic food chain model was improved for the consideration of the influence of radioactive contamination to agricultural products due to rain during the environmental releases of radionuclides in a nuclear accident Wet interception coefficients for the agricultural plants were derived as a function of radionuclide and rainfall amount, and mathematical formulations of the previous model were modified. As a result, rain during accidental releases was influential in agricultural contamination. The contamination level of agricultural products decreased dramatically according to increasing rainfall amount. It means that predictive concentrations in agricultural products using the previous model, in which dry interception to the agricultural plants is only considered, can be overestimated. The influence of rainfall in agricultural contamination was the most sensitive for $^{131}$ I, and the least sensitive for $^{90}$ Sr among the radionuclides considered in this study.

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References

  1. IAEA, 'The International Chernobyl Project: Assessment of Radiological Consequences and Evaluation of Protecctive Measures', Technical Report (1991)
  2. Chien Chung, 'Environmental Radioactivity and Dose Evaluation in Taiwan After the Chernobyl Accident', Health Physics Vol. 56, No. 4, pp 465-471 (1989)
  3. W. T. Hwang, G. S. Cho and M. H. Han, 'Development of a Dynamic Food Chain Model DYNACON and Its Application to Korean Agricultural Conditions', Journal of Nuclear Science and Technology, 35(6), 454 (1998)
  4. M. H. Han et al., 'Development of Environmental Radiation protection Technology: Development of Radiological Emergency Preparedness and Biological Dosimetry Technology', Korea Atomic Energy Research Institute, KAERI/RR-1913/98 (1998)
  5. A. C. Chamblain, 'Interception and Retention of Radioactive Aerosols by Vegetation', Atmospheric Environment 4, 57 (1970) https://doi.org/10.1016/0004-6981(70)90054-5
  6. IAEA, 'Handbook of Parameter Values for the prediction of Radionuclide Transfer in Temperate Environment', IAEA Technical Reports Series No. 364 (1994)
  7. Persnal Communication with S. R. Peterson, Lawrence Livermore National Lab