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Article

Remediating radium contaminated legacy sites: Advances made through machine learning in routine monitoring of "hot" particles

Details

Citation

Varley A, Tyler A, Smith L, Dale P & Davies M (2015) Remediating radium contaminated legacy sites: Advances made through machine learning in routine monitoring of "hot" particles. Science of the Total Environment, 521-522, pp. 270-279. https://doi.org/10.1016/j.scitotenv.2015.03.131

Abstract
The extensive use of radium during the 20th century for industrial, military and pharmaceutical purposes has led to a large number of contaminated legacy sites across Europe and North America. Sites that pose a high risk to the general public can present expensive and long-term remediation projects. Often the most pragmatic remediation approach is through routine monitoring operating gamma-ray detectors to identify, in real-time, the signal from the most hazardous heterogeneous contamination (hot particles); thus facilitating their removal and safe disposal. However, current detection systems do not fully utilise all spectral information resulting in low detection rates and ultimately an increased risk to the human health. The aim of this study was to establish an optimised detector-algorithm combination. To achieve this, field data was collected using two handheld detectors (sodium iodide and lanthanum bromide) and a number of Monte Carlo simulated hot particles were randomly injected into the field data. This allowed for the detection rate of conventional deterministic (gross counts) and machine learning (neural networks and support vector machines) algorithms to be assessed. The results demonstrated that a Neural Network operated on a sodium iodide detector provided the best detection capability. Compared to deterministic approaches, this optimised detection system could detect a hot particle on average 10cm deeper into the soil column or with half of the activity at the same depth. It was also found that noise presented by internal contamination restricted lanthanum bromide for this application.

Keywords
Radium remediation; Gamma spectroscopy; “Hot” particles; Machine learning; Monte Carlo; Sodium iodide; Lanthanum bromide

Journal
Science of the Total Environment: Volume 521-522

StatusPublished
Publication date15/07/2015
Publication date online03/04/2015
Date accepted by journal29/03/2015
URL
PublisherElsevier
ISSN0048-9697

People (3)

Professor Leslie Smith

Professor Leslie Smith

Emeritus Professor, Computing Science

Professor Andrew Tyler

Professor Andrew Tyler

Scotland Hydro Nation Chair, Scotland's International Environment Centre

Dr Adam Varley

Dr Adam Varley

Data Scientist, Biological and Environmental Sciences