Mathematical modeling of total dose to a hypothetical resident in the environment of nuclear facility by contamination through the atmosphere
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2014
Authors
Gršić, Z.Pavlović, S.
Arbutina, D.
Dramlić, S.
Dramlić, D.
Dimović, S.
Nikezić, D.
Kaljević, J.
Milinčić, Miroljub
Zdravković, M.
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This paper presents an algorithm for the calculation of internal and external doses, which is an integral part of the mathematical model of atmospheric dispersion. Results of modeling were compared with values from an IAEA publication for a given scenario of radionuclide emission to the atmospheric boundary layer. Due to small differences in the results, compared to the IAEA recommended model, model presented in the paper can be used as a basis for this type of analysis. In order to illustrate the application of this mathematical model (atmospheric dispersion + module for the calculation of radiation doses), using data of the hypothetical emission of radionuclides,, ventilation parameters, then 3D topography and meteorological data, field of total annual dose received by a hypothetical resident in the vicinity of the reactor, during its routine operation over one-year period is presented.
Keywords:
Air / Deposition / Disperion / Dose / Model / NuclearSource:
RAD Conference Proceedings, 2014, 2014-May, 183-186Publisher:
- RAD Association
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Geografski fakultetTY - CONF AU - Gršić, Z. AU - Pavlović, S. AU - Arbutina, D. AU - Dramlić, S. AU - Dramlić, D. AU - Dimović, S. AU - Nikezić, D. AU - Kaljević, J. AU - Milinčić, Miroljub AU - Zdravković, M. PY - 2014 UR - https://gery.gef.bg.ac.rs/handle/123456789/662 AB - This paper presents an algorithm for the calculation of internal and external doses, which is an integral part of the mathematical model of atmospheric dispersion. Results of modeling were compared with values from an IAEA publication for a given scenario of radionuclide emission to the atmospheric boundary layer. Due to small differences in the results, compared to the IAEA recommended model, model presented in the paper can be used as a basis for this type of analysis. In order to illustrate the application of this mathematical model (atmospheric dispersion + module for the calculation of radiation doses), using data of the hypothetical emission of radionuclides,, ventilation parameters, then 3D topography and meteorological data, field of total annual dose received by a hypothetical resident in the vicinity of the reactor, during its routine operation over one-year period is presented. PB - RAD Association C3 - RAD Conference Proceedings T1 - Mathematical modeling of total dose to a hypothetical resident in the environment of nuclear facility by contamination through the atmosphere VL - 2014-May SP - 183 EP - 186 UR - https://hdl.handle.net/21.15107/rcub_gery_662 ER -
@conference{ author = "Gršić, Z. and Pavlović, S. and Arbutina, D. and Dramlić, S. and Dramlić, D. and Dimović, S. and Nikezić, D. and Kaljević, J. and Milinčić, Miroljub and Zdravković, M.", year = "2014", abstract = "This paper presents an algorithm for the calculation of internal and external doses, which is an integral part of the mathematical model of atmospheric dispersion. Results of modeling were compared with values from an IAEA publication for a given scenario of radionuclide emission to the atmospheric boundary layer. Due to small differences in the results, compared to the IAEA recommended model, model presented in the paper can be used as a basis for this type of analysis. In order to illustrate the application of this mathematical model (atmospheric dispersion + module for the calculation of radiation doses), using data of the hypothetical emission of radionuclides,, ventilation parameters, then 3D topography and meteorological data, field of total annual dose received by a hypothetical resident in the vicinity of the reactor, during its routine operation over one-year period is presented.", publisher = "RAD Association", journal = "RAD Conference Proceedings", title = "Mathematical modeling of total dose to a hypothetical resident in the environment of nuclear facility by contamination through the atmosphere", volume = "2014-May", pages = "183-186", url = "https://hdl.handle.net/21.15107/rcub_gery_662" }
Gršić, Z., Pavlović, S., Arbutina, D., Dramlić, S., Dramlić, D., Dimović, S., Nikezić, D., Kaljević, J., Milinčić, M.,& Zdravković, M.. (2014). Mathematical modeling of total dose to a hypothetical resident in the environment of nuclear facility by contamination through the atmosphere. in RAD Conference Proceedings RAD Association., 2014-May, 183-186. https://hdl.handle.net/21.15107/rcub_gery_662
Gršić Z, Pavlović S, Arbutina D, Dramlić S, Dramlić D, Dimović S, Nikezić D, Kaljević J, Milinčić M, Zdravković M. Mathematical modeling of total dose to a hypothetical resident in the environment of nuclear facility by contamination through the atmosphere. in RAD Conference Proceedings. 2014;2014-May:183-186. https://hdl.handle.net/21.15107/rcub_gery_662 .
Gršić, Z., Pavlović, S., Arbutina, D., Dramlić, S., Dramlić, D., Dimović, S., Nikezić, D., Kaljević, J., Milinčić, Miroljub, Zdravković, M., "Mathematical modeling of total dose to a hypothetical resident in the environment of nuclear facility by contamination through the atmosphere" in RAD Conference Proceedings, 2014-May (2014):183-186, https://hdl.handle.net/21.15107/rcub_gery_662 .