European-wide 222Radon and 222Radon progeny comparison study

SCHMITHÜSEN, Dominik, Scott CHAMBERS, Bernd FISCHER, Stefan GILGE, Juha HATAKKA, Victor KAZAN, Rolf NEUBERT, Jussi PAATERO, Michel RAMONET, Clemens SCHLOSSER, Sabine SCHMID, Alex T. VERMEULEN und Ingeborg LEVIN, 2016. European-wide 222Radon and 222Radon progeny comparison study. Atmospheric Measurement Techniques [online]. 2016. Bd. (2016). DOI 10.60810/openumwelt-607. Verfügbar unter: https://openumwelt.de/handle/123456789/7282

Zusammenfassung englisch

A European-wide 222Radon/222Radon progeny comparison study has been conducted in order to determine correction factors that could be applied to existing atmospheric 222Radon data sets for quantitative use of this tracer in atmospheric transport model validation. Two compact and easy-to-transport Heidelberg Radon Monitors (HRM) were moved around to run for at least one month at each of the nine European measurement stations that were included in the comparison. Linear regressions between parallel data sets were calculated, yielding correction factors relative to the HRM ranging from 0.68 to 1.45. A calibration bias between ANSTO (Australian Nuclear Science and Technology Organisation) two-filter radon monitors and the HRM of ANSTO/HRM = 1.11 ş 0.05 was found. For continental stations, which use one-filter systems, preliminary 214Po/222Rn disequilibrium values were estimated to lie between 0.8 at mountain stations (e.g. Schauinsland) and 0.9 at non-mountain sites for sampling heights around 20 to 30?m above ground level. Respective corrections need to be applied to obtain a consistent European 222Radon data set for further applications.Quelle: http://www.atmos-meas-tech-discuss.net

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https://openumwelt.de/handle/123456789/7282

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