Simulated nuclear contamination scenario, solid cancer risk assessment, and support to decision

Simulated nuclear contamination scenario, solid cancer risk assessment, and support to decision

The detonation of an (hypothetical) improvised nuclear device (IND) can generate atmospheric release of radioactive material in the form of particles and dust that ultimately contaminate the soil. In this study, the detonation of an IND in an urban area was simulated, and its effects on humans were...

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Main Authors: Lima Sergio X., Costa Karolina P. S., Lima Zelmo R., Rother Fagner C., Araujo Olga M. O., Vital Helio C., Brum Tercio, Junior Wilson F. R. S., Amorim Jose Carlos C., Healy Matthew J. F., Andrade Edson R.
Format: Article
Language:English
Published: Sciendo 2019-06-01
Series:Nukleonika
Subjects:
improvised nuclear device (IND)
induced cancer
risk assessment
decision
Online Access:http://www.degruyter.com/view/j/nuka.2019.64.issue-2/nuka-2019-0005/nuka-2019-0005.xml?format=INT
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spelling doaj-374131256bf94c46b742baf8cc5d21db2020-11-25T01:30:19ZengSciendoNukleonika0029-59222019-06-01642414810.2478/nuka-2019-0005nuka-2019-0005Simulated nuclear contamination scenario, solid cancer risk assessment, and support to decisionLima Sergio X.0Costa Karolina P. S.1Lima Zelmo R.2Rother Fagner C.3Araujo Olga M. O.4Vital Helio C.5Brum Tercio6Junior Wilson F. R. S.7Amorim Jose Carlos C.8Healy Matthew J. F.9Andrade Edson R.10Defense Engineering Graduate Program, Military Institute of Engineering, (IME), Rio de Janeiro, BrazilNuclear Engineering Institute (CNEN/IEN)Rio de Janeiro, BrazilNuclear Engineering Institute (CNEN/IEN)Rio de Janeiro, BrazilInstitute of Radioprotection and Dosimetry (CNEN/IRD)Rio de Janeiro, BrazilNuclear Engineering Graduate ProgramFederal University of Rio de Janeiro (COPPE/UFRJ)Rio de Janeiro, BrazilDefense Engineering Graduate Program, Military Institute of Engineering, (IME), Rio de Janeiro, BrazilDefense Engineering Graduate Program, Military Institute of Engineering, (IME), Rio de Janeiro, BrazilFaculty of Engineering, Rio de Janeiro State University and IBRAG, Rio de Janeiro, BrazilDefense Engineering Graduate Program, Military Institute of Engineering, (IME), Rio de Janeiro, BrazilCranfield Forensic Institute, Cranfield University and Defence Academy of the United KingdomShrivenham, SN6 8LA, United KingdomDefense Engineering Graduate Program, Military Institute of Engineering (IME), Rio de Janeiro, Brazil and Nuclear Engineering Institute (CNEN/IEN) Rio de Janeiro, BrazilThe detonation of an (hypothetical) improvised nuclear device (IND) can generate atmospheric release of radioactive material in the form of particles and dust that ultimately contaminate the soil. In this study, the detonation of an IND in an urban area was simulated, and its effects on humans were determined. The risk of solid cancer development due to radiation was calculated by taking into account prompt radiation and whole-body exposure of individuals near the detonation site up to 10 km. The excess relative risk (ERR) of developing solid cancer was evaluated by using the mathematical relationships from the Radiation Effects Research Foundation (RERF) studies and those from the HotSpot code. The methodology consists of using output data obtained from simulations performed with the HotSpot health physics code plugging in such numbers into a specific given equation used by RERF to evaluate the resulting impact. Such a preliminary procedure is expected to facilitate the decision-making process significantly.http://www.degruyter.com/view/j/nuka.2019.64.issue-2/nuka-2019-0005/nuka-2019-0005.xml?format=INTimprovised nuclear device (IND)induced cancerrisk assessmentdecision
collection DOAJ
language English
format Article
sources DOAJ
author Lima Sergio X.
Costa Karolina P. S.
Lima Zelmo R.
Rother Fagner C.
Araujo Olga M. O.
Vital Helio C.
Brum Tercio
Junior Wilson F. R. S.
Amorim Jose Carlos C.
Healy Matthew J. F.
Andrade Edson R.
spellingShingle Lima Sergio X.
Costa Karolina P. S.
Lima Zelmo R.
Rother Fagner C.
Araujo Olga M. O.
Vital Helio C.
Brum Tercio
Junior Wilson F. R. S.
Amorim Jose Carlos C.
Healy Matthew J. F.
Andrade Edson R.
Simulated nuclear contamination scenario, solid cancer risk assessment, and support to decision
Nukleonika
improvised nuclear device (IND)
induced cancer
risk assessment
decision
author_facet Lima Sergio X.
Costa Karolina P. S.
Lima Zelmo R.
Rother Fagner C.
Araujo Olga M. O.
Vital Helio C.
Brum Tercio
Junior Wilson F. R. S.
Amorim Jose Carlos C.
Healy Matthew J. F.
Andrade Edson R.
author_sort Lima Sergio X.
title Simulated nuclear contamination scenario, solid cancer risk assessment, and support to decision
title_short Simulated nuclear contamination scenario, solid cancer risk assessment, and support to decision
title_full Simulated nuclear contamination scenario, solid cancer risk assessment, and support to decision
title_fullStr Simulated nuclear contamination scenario, solid cancer risk assessment, and support to decision
title_full_unstemmed Simulated nuclear contamination scenario, solid cancer risk assessment, and support to decision
title_sort simulated nuclear contamination scenario, solid cancer risk assessment, and support to decision
publisher Sciendo
series Nukleonika
issn 0029-5922
publishDate 2019-06-01
description The detonation of an (hypothetical) improvised nuclear device (IND) can generate atmospheric release of radioactive material in the form of particles and dust that ultimately contaminate the soil. In this study, the detonation of an IND in an urban area was simulated, and its effects on humans were determined. The risk of solid cancer development due to radiation was calculated by taking into account prompt radiation and whole-body exposure of individuals near the detonation site up to 10 km. The excess relative risk (ERR) of developing solid cancer was evaluated by using the mathematical relationships from the Radiation Effects Research Foundation (RERF) studies and those from the HotSpot code. The methodology consists of using output data obtained from simulations performed with the HotSpot health physics code plugging in such numbers into a specific given equation used by RERF to evaluate the resulting impact. Such a preliminary procedure is expected to facilitate the decision-making process significantly.
topic improvised nuclear device (IND)
induced cancer
risk assessment
decision
url http://www.degruyter.com/view/j/nuka.2019.64.issue-2/nuka-2019-0005/nuka-2019-0005.xml?format=INT
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