Radiation dose implications of airborne contaminant deposition to humans

Kasper G. Andersson; C. L. Fogh; M. A. Byrne; J. Roed; A. J.H. Goddard; S. A.M. Hotchkiss

doi:10.1097/00004032-200202000-00007

Radiation dose implications of airborne contaminant deposition to humans

Kasper G. Andersson, C. L. Fogh, M. A. Byrne, J. Roed, A. J.H. Goddard, S. A.M. Hotchkiss

Technical University of Denmark

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

31 Citations (Scopus)

Abstract

In nuclear accident consequence assessment, dose contributions from radionuclide deposition on the human body have in the past generally been either ignored or estimated on the basis of rather simple models. Recent experimental work has improved the state of knowledge of relevant processes and parameter ranges. The results presented in this paper represent a first approach to a detailed assessment of doses from radiopollutant deposition on the human body, based on contaminant-specific data. Both the dose to skin from beta-emitters and the whole-body dose from gamma-emitters on body surfaces were found to give potentially significant contributions to dose. Further, skin penetration of some contaminants could lead to significant internal doses.

Original language	English
Pages (from-to)	226-232
Number of pages	7
Journal	Health Physics
Volume	82
Issue number	2
DOIs	https://doi.org/10.1097/00004032-200202000-00007
Publication status	Published - 2002
Externally published	Yes

Keywords

Accidents, nuclear
Aerosols
Modeling, dose assessment
Radioactivity, airborne

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10.1097/00004032-200202000-00007

Cite this

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title = "Radiation dose implications of airborne contaminant deposition to humans",

abstract = "In nuclear accident consequence assessment, dose contributions from radionuclide deposition on the human body have in the past generally been either ignored or estimated on the basis of rather simple models. Recent experimental work has improved the state of knowledge of relevant processes and parameter ranges. The results presented in this paper represent a first approach to a detailed assessment of doses from radiopollutant deposition on the human body, based on contaminant-specific data. Both the dose to skin from beta-emitters and the whole-body dose from gamma-emitters on body surfaces were found to give potentially significant contributions to dose. Further, skin penetration of some contaminants could lead to significant internal doses.",

keywords = "Accidents, nuclear, Aerosols, Modeling, dose assessment, Radioactivity, airborne",

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AU - Andersson, Kasper G.

AU - Fogh, C. L.

AU - Byrne, M. A.

AU - Roed, J.

AU - Goddard, A. J.H.

AU - Hotchkiss, S. A.M.

PY - 2002

Y1 - 2002

N2 - In nuclear accident consequence assessment, dose contributions from radionuclide deposition on the human body have in the past generally been either ignored or estimated on the basis of rather simple models. Recent experimental work has improved the state of knowledge of relevant processes and parameter ranges. The results presented in this paper represent a first approach to a detailed assessment of doses from radiopollutant deposition on the human body, based on contaminant-specific data. Both the dose to skin from beta-emitters and the whole-body dose from gamma-emitters on body surfaces were found to give potentially significant contributions to dose. Further, skin penetration of some contaminants could lead to significant internal doses.

AB - In nuclear accident consequence assessment, dose contributions from radionuclide deposition on the human body have in the past generally been either ignored or estimated on the basis of rather simple models. Recent experimental work has improved the state of knowledge of relevant processes and parameter ranges. The results presented in this paper represent a first approach to a detailed assessment of doses from radiopollutant deposition on the human body, based on contaminant-specific data. Both the dose to skin from beta-emitters and the whole-body dose from gamma-emitters on body surfaces were found to give potentially significant contributions to dose. Further, skin penetration of some contaminants could lead to significant internal doses.

KW - Accidents, nuclear

KW - Aerosols

KW - Modeling, dose assessment

KW - Radioactivity, airborne

UR - https://www.scopus.com/pages/publications/0036141949

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DO - 10.1097/00004032-200202000-00007

M3 - Article

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VL - 82

SP - 226

EP - 232

JO - Health Physics

JF - Health Physics

IS - 2

ER -

Radiation dose implications of airborne contaminant deposition to humans

Abstract

Keywords

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