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Antony R. Denman
Researcher at University of Northampton
Publications - 26
Citations - 481
Antony R. Denman is an academic researcher from University of Northampton. The author has contributed to research in topics: Radon & Cost effectiveness. The author has an hindex of 12, co-authored 26 publications receiving 439 citations. Previous affiliations of Antony R. Denman include Northampton General Hospital & Northampton Community College.
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Radon hazards, geology, and exposure of cave users: a case study and some theoretical perspectives.
TL;DR: This study confirms previous workers' conclusions that long-term users of deep caves, as opposed to rock shelters, are at risk, and sets out a theoretical model to quantify the risk of exposure in this cave environment.
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Radon levels in abandoned metalliferous mines, Devon, southwest England.
TL;DR: Radon levels underground in two abandoned mines in Devon, United Kingdom, are reported and analyzed, with 7,100,000 Bq m(-3) being the highest level recorded.
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Radon anomalies preceding earthquakes which occurred in the UK, in summer and autumn 2002
TL;DR: During the course of an investigation into domestic radon levels in Northamptonshire, two hourly sampling real-time radon detectors were operated simultaneously in separate locations 2.25 km apart for a 25-week period during which the Dudley earthquake and smaller aftershocks occurred.
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Identification of tidal and climatic influences within domestic radon time-series from Northamptonshire, UK.
TL;DR: Analysis of data from extended radon concentration time-series obtained from domestic and public-sector premises in the vicinity of Northampton, UK, and elsewhere confirms that 'Earth Tides' and 'Ocean Tidal Loading' drive periodic radon liberation via geophysically driven groundwater level variations.
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The effects of geology and the impact of seasonal correction factors on indoor radon levels: a case study approach
TL;DR: Due to the complexity of underlying geology and considerable variations in permeability of underlying materials it is clear that there are a significant number of occurrences where the application of a seasonal correction factor may give rise to over-estimated or under-estimate radon levels.