Please use this identifier to cite or link to this item: http://hdl.handle.net/1893/28789
Appears in Collections:Biological and Environmental Sciences Journal Articles
Peer Review Status: Refereed
Title: Development of a neural network approach to characterise 226Ra contamination at legacy sites using gamma-ray spectra taken from boreholes
Author(s): Varley, Adam
Tyler, Andrew
Smith, Leslie
Dale, Paul
Keywords: borehole gammaspectroscopy
radium contamination
Monte Carlo
neural networks
Issue Date: 28-Feb-2015
Date Deposited: 11-Feb-2019
Citation: Varley A, Tyler A, Smith L & Dale P (2015) Development of a neural network approach to characterise 226Ra contamination at legacy sites using gamma-ray spectra taken from boreholes. Journal of Environmental Radioactivity, 140, pp. 130-140. https://doi.org/10.1016/j.jenvrad.2014.11.011
Abstract: There are a large number of sites across the UK and the rest of the world that are known to be contaminated with 226Ra owing to historical industrial and military activities. At some sites, where there is a realistic risk of contact with the general public there is a demand for proficient risk assessments to be undertaken. One of the governing factors that influence such assessments is the geometric nature of contamination particularly if hazardous high activity point sources are present. Often this type of radioactive particle is encountered at depths beyond the capabilities of surface gamma-ray techniques and so intrusive borehole methods provide a more suitable approach. However, reliable spectral processing methods to investigate the properties of the waste for this type of measurement have yet to be developed since a number of issues must first be confronted including: representative calibration spectra, variations in background activity and counting uncertainty. Here a novel method is proposed to tackle this issue based upon the interrogation of characteristic Monte Carlo calibration spectra using a combination of Principal Component Analysis and Artificial Neural Networks. The technique demonstrated that it could reliably distinguish spectra that contained contributions from point sources from those of background or dissociated contamination (homogenously distributed). The potential of the method was demonstrated by interpretation of borehole spectra collected at the Dalgety Bay headland, Fife, Scotland. Predictions concurred with intrusive surveys despite the realisation of relatively large uncertainties on activity and depth estimates. To reduce this uncertainty, a larger background sample and better spatial coverage of cores were required, alongside a higher volume better resolution detector.
DOI Link: 10.1016/j.jenvrad.2014.11.011
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Licence URL(s): http://creativecommons.org/licenses/by/4.0/

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