The influence of environmental parameters in electrostatic cell radon monitor response

To better understand the influence of air parameters such as pressure, humidity and temperature on the counting efficiency of a radon monitor based on solid state silicon detectors and radon daughter electrostatic collection, a number of experimental and theoretical studies have been performed. This...

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Veröffentlicht in:	Applied radiation and isotopes 2004-08, Vol.61 (2), p.243-247
Hauptverfasser:	Roca, V, Felice, P.De, Esposito, A.M, Pugliese, M, Sabbarese, C, Vaupotich, J
Format:	Artikel
Sprache:	eng
Schlagworte:	Climatic parameters Electrostatic cell Modelling Radon monitoring
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creator	Roca, V Felice, P.De Esposito, A.M Pugliese, M Sabbarese, C Vaupotich, J
description	To better understand the influence of air parameters such as pressure, humidity and temperature on the counting efficiency of a radon monitor based on solid state silicon detectors and radon daughter electrostatic collection, a number of experimental and theoretical studies have been performed. This study has been carried out using a multiparameter acquisition system used to monitor radon, temperature, pressure and relative humidity. Results show that air humidity and temperature inside the cell influence radon daughter collection in a significant way. For the tested cell, a decrease of the 218Po counting efficiency vs. humidity and temperature increase was measured in the ranges from 10% to 90% and from 15°C to 35°C, respectively. These effects were also theoretically studied by using Monte-Carlo software, which takes into account electrostatic collection of radon daughters in the cell, by considering the recombination process as a function of climatic parameters. A satisfactory agreement was obtained between experimental measurements and theoretical calculations.
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subjects	Climatic parameters Electrostatic cell Modelling Radon monitoring
title	The influence of environmental parameters in electrostatic cell radon monitor response
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