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Study of historic nuclear reactor discharge data

Published online by Cambridge University Press:  06 June 2009

D. Copplestone
Affiliation:
Environment Agency, Warrington WA4 1HG, UK
A. Sutherland
Affiliation:
Environment Agency, Warrington WA4 1HG, UK
A. McGoff
Affiliation:
Environment Agency, Warrington WA4 1HG, UK
D. Bennett
Affiliation:
Environment Agency, Warrington WA4 1HG, UK
A. Matadeen
Affiliation:
RM Consultants Ltd, Hitching Court, Abingdon Business Park, Abingdon, Oxfordshire OX14 1RA, UK
F. Mok
Affiliation:
RM Consultants Ltd, Hitching Court, Abingdon Business Park, Abingdon, Oxfordshire OX14 1RA, UK
A. Bird
Affiliation:
RM Consultants Ltd, Hitching Court, Abingdon Business Park, Abingdon, Oxfordshire OX14 1RA, UK
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Abstract

The UK Government has said that energy companies can invest in new nuclear power stations. As part of this, the safety, security and environmental regulators (the Nuclear Directorate of the Health and Safety Executive and the Environment Agency in England and Wales) are engaged in a process known as generic design assessment (GDA) that was proposed by UK Government to improve the process of consulting on and approving new nuclear power stations. The GDA process is expected to take about 3½ years to complete. From an environmental perspective, the Environment Agency is interested in assessing whether the proposed reactor designs represent the 'best available techniques' (BAT) with regard to environmental discharges. This paper describes a project that has been assessing BAT for radioactive discharges for analogues (i.e. the previous generation) of four reactor designs on which assessment work started in 2007. Where possible data on environmental discharges has been collated for individual radionuclides for a number of reactor analogues and the discharge performance has been normalized with respect to thermal and electrical outputs to allow trends in the data to be determined. Where possible, explanations for any trends have been identified.

Type
Research Article
Copyright
© EDP Sciences, 2009

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References

Health and Safety Executive, New Reactors Website, Background, Assessment Process; 'http://www.hse.gov.uk/newreactors/background.htm' [Accessed January 2008]
Department of Trade and Industry (2007) The Future of Nuclear Power: The Role of Nuclear Power in a Low Carbon UK Economy (Consultation document) The Future of Nuclear Power Future. 207 pp.
Nuclear Regulatory Commission Effluents Database, http://www.reirs.com/effluent/ [Accessed 09 June 2008]
International Atomic Energy Agency database on discharges of radionuclides to the atmosphere and the aquatic environment (DIRATA) - http://dirata.iaea.org/ [Accessed 09 June 2008]
International Atomic Energy Agency; Power Reactor Information System; On-line Database: http://www.iaea.org/programmes/a2/ [Accessed March 2008]
International Nuclear Safety Centre Database. Retrieved from www.insc.anl.gov/ on 14 January 2008.
UNSCEAR Report 2000, Annex C: Exposures to the public from man-made sources of radiation.
European Union; Radioactive Effluents from Nuclear Power Stations and Nuclear Fuel Reprocessing Plants in the European Union (1995–1999 Report and 2000–2003 Report).
OSPAR Commission (2005) The Application of BAT in UK Nuclear Facilities Report; ISBN 1-904426-70-0.
World Nuclear Association. Reactors Database. Available from http://db.world-nuclear.org/reference/reactorsdb_index.ph [Accessed March 2008]
Study of Historic Nuclear Reactor Discharge Data & Associated Arising of Solid Radioactive Wastes; RM Consultants Limited; August 2008