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On the current needs in European decision support tools for contaminated areas

Published online by Cambridge University Press:  25 April 2013

K.G. Andersson

Abstract

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As part of the ongoing European project NERIS-TP, a revision has been made of some parameters influencing dose estimates in the European emergency management decision support systems RODOS and ARGOS. On the basis of survey data, the estimates of the time fractions typically spent indoors and outdoors over longer time periods have been revised. On the basis of measurement data, also new values for the natural ventilation rate governing early ingression of contaminants into dwellings have been derived for different parts of Europe. Other potential parameterisation improvements for the decision support systems are discussed.

Keywords

Emergency preparednessdecision supportRODOSARGOSindoor
Type
Research Article
Information
Radioprotection , Volume 48 , Issue 5: First NERIS Platform Workshop – Preparedness for nuclear and radiological emergency response and recovery: Implementation of ICRP recommendations , 2013 , pp. S57 - S64
Copyright
© EDP Sciences, 2013

References

Adair J. H., Spengler J. D. (1989) Time activity and exposure assessment: the six city indoor air quality experience. In: 82nd Annual Meeting and Exposition of the Air and Waste Management Association (Paper No. 89-100.5), Anaheim, CA.
AIVC (1994) An Analysis and Data Summary of the AIVC’s Numerical Database. Air Infiltration and Ventilation Centre (AIVC) Technical Note.
Andersson K.G. (ed.) (2009) Airborne radioactive contamination in inhabited areas, Book Series Radioactivity in the Environment vol. 15 (series editor: M.S. Baxter), Elsevier, ISBN 978-0-08-044989-0, ISSN 1569-4860.
Andersson K.G. (2012) Area-specific indoor parameterisation for RODOS and ARGOS, Draft report on a task under Deliverable D2.3 of the NERIS-TP project, Euratom for Nuclear Research and Training Activities: Fission 2010: 269718.
Andersson, K.G., Nielsen, S.P., Thørring, H., Hansen, H.S., Joensen, H.P., Isaksson, M., Kostiainen, E., Suolanen, V., Pálsson, S.E. (2011) Revision of deposition and weathering parameters for the ingestion dose module (ECOSYS) of the ARGOS and RODOS decision support systems, J. Environ. Radioactiv. 102, 1024-1031. Google ScholarPubMed
Ashmore, M.R., Dimitroulopoulou, C. (2009) Personal exposure of children to air pollution, Atmos. Environ. 43, 128-141. Google Scholar
Boudet C., Zmirou D., et al. (1997) Subjects Adapt Time-Activity Patterns during Participation in a Personal Exposure Assessment Study. In: 7th Annual Meeting of the International Society of Exposure Analysis, Research Triangle Park, NC.
Brasche, S., Bischof, W. (2005) Daily time spent indoors in German homes – Baseline data for the assessment of indoor exposure of German occupants, Int. J. Hyg. Envir. Heal. 208 (4), 247-253. Google ScholarPubMed
Daghigh, R., Adam, N.M., Sahari, B.B., Sopian, K., Alghoul, M.A. (2008) Influences of air exchange effectiveness and its rate on thermal comfort: naturally ventilated office, J. Building Physics, 32 (2), 175-194. Google Scholar
ICRP publication 96 (2005) Protecting people against radiation exposure in the event of a radiological attack, Ann. ICRP 35 (1).
ICRP publication 101 (2006) Assessing dose of the representative person for the purpose of radiation protection of the public and the optimisation of radiological protection, Ann. ICRP 36 (3).
Mattsson, B. (2006) The influence of wind speed, terrain and ventilation system on the air change rate of a single family house, Energy, 31, 719-731. Google Scholar
Meckbach, R., Jacob, P., Paretzke, H.G. (1988) Gamma exposures due to radionuclides deposited in urban environments. Part I: Kerma rates from contaminated urban surfaces, Radiat. Prot. Dosim. 25 (3), 167-179. Google Scholar
Ott W.R. (1989) Human activity patterns: a review of the literature for estimating time spent indoors, outdoors, and in transit. In: proceedings of the Research Planning Conference on Human Activity Patterns, Las Vegas, NV, EPA National Exposure Research Laboratory, EPA /600/4-89/004.
Physick, W., Powell, J., Cope, M., Boast, K., Lee, S. (2011) Measurements of personal exposure to NO2 and modelling using ambient concentrations and activity data, Atmos. Environ. 45, 2095-2102. Google Scholar
Schweizer C. (2004) EXPOLIS annex, http://www.ktl.fi/expolis/files/FR_WP1.pdf