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dc.contributor.authorGrossi, Claudia
dc.contributor.authorChambers, Scott Dudley
dc.contributor.authorVogel, Felix
dc.contributor.authorVargas Drechsler, Arturo
dc.contributor.otherUniversitat Politècnica de Catalunya. Departament de Física
dc.contributor.otherUniversitat Politècnica de Catalunya. Institut de Tècniques Energètiques
dc.identifier.citationGrossi, C. [et al.]. Intercomparison study of atmospheric 222Rn and 222Rn progeny monitors. "Atmospheric measurement techniques", 8 Maig 2020, vol. 13, núm. 5, p. 2241.
dc.description.abstractThe use of the noble gas radon (222Rn) as a tracer for different research studies, for example observation-based estimation of greenhouse gas (GHG) fluxes, has led to the need of high-quality 222Rn activity concentration observations with high spatial and temporal resolution. So far a robust metrology chain for these measurements is not yet available. A portable direct atmospheric radon monitor (ARMON), based on electrostatic collection of 218Po, is now running at Spanish stations. This monitor has not yet been compared with other 222Rn and 222Rn progeny monitors commonly used at atmospheric stations. A 3-month intercomparison campaign of atmospheric 222Rn and 222Rn progeny monitors based on different measurement techniques was realized during the fall and winter of 2016–2017 to evaluate (i) calibration and correction factors between monitors necessary to harmonize the atmospheric radon observations and (ii) the dependence of each monitor's response in relation to the sampling height and meteorological and atmospheric aerosol conditions. Results of this study have shown the following. (i) All monitors were able to reproduce the atmospheric radon variability on a daily basis. (ii) Linear regression fits between the monitors exhibited slopes, representing the correction factors, between 0.62 and 1.17 and offsets ranging between -0.85 and -0.23¿Bq¿m-3 when sampling 2¿m above ground level (a.g.l.). Corresponding results at 100¿m¿a.g.l. exhibited slopes of 0.94 and 1.03 with offsets of -0.13 and 0.01¿Bq¿m-3, respectively. (iii) No influence of atmospheric temperature and relative humidity on monitor responses was observed for unsaturated conditions at 100¿m¿a.g.l., whereas slight influences (order of 10-2) of ambient temperature were observed at 2¿m¿a.g.l. (iv) Changes in the ratio between 222Rn progeny and 222Rn monitor responses were observed under very low atmospheric aerosol concentrations. Results also show that the new ARMON could be useful at atmospheric radon monitoring stations with space restrictions or as a mobile reference instrument to calibrate in situ 222Rn progeny monitors and fixed radon monitors. In the near future a long-term comparison study between ARMON, HRM, and ANSTO monitors would be useful to better evaluate (i) the uncertainties of radon measurements in the range of a few hundred millibecquerels per cubic meter to a few becquerels per cubic meter and (ii) the response time correction of the ANSTO monitor for representing fast changes in the ambient radon concentrations.
dc.format.extent1 p.
dc.rightsAttribution-BY 4.0 International
dc.subjectÀrees temàtiques de la UPC::Desenvolupament humà i sostenible::Degradació ambiental
dc.subjectÀrees temàtiques de la UPC::Enginyeria química::Química del medi ambient
dc.subject.lcshEnvironmental chemistry
dc.titleIntercomparison study of atmospheric 222Rn and 222Rn progeny monitors
dc.subject.lemacQuímica ambiental
dc.contributor.groupUniversitat Politècnica de Catalunya. DRM - Dosimetria i Radiofísica Mèdica
dc.rights.accessOpen Access
dc.description.versionPostprint (published version)
local.citation.authorGrossi, C.; Chambers, S.; Vogel, F.; Vargas, A.
local.citation.publicationNameAtmospheric measurement techniques

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