Radosys Company, Budapest, Hungary, RSKS, Goce Delcev University, Stip, Republic of Macedonia

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Radosys Company, Budapest, Hungary, RSKS, Goce Delcev University, Stip, Republic of Macedonia

Authors

Publications

Prediction of Long-Term Indoor Radon Concentration Based on Short-Term Measurements

Stojanovska, Zdenka A.; Ivanova, Kremena; Bossew, Peter; Boev, Blažo; Žunić, Zora S.; Tsenova, Martina; Ćurguz, Zoran; Kolarž, Predrag M.; Zdravkovska, Milka; Ristova, Mimoza

(2017) 

TY  - JOUR
AU  - Stojanovska, Zdenka A.
AU  - Ivanova, Kremena
AU  - Bossew, Peter
AU  - Boev, Blažo
AU  - Žunić, Zora S.
AU  - Tsenova, Martina
AU  - Ćurguz, Zoran
AU  - Kolarž, Predrag M.
AU  - Zdravkovska, Milka
AU  - Ristova, Mimoza
PY  - 2017
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/1606
AB  - We present a method for the estimation of annual radon concentration based on short-term (three months) measurements. The study involves results from two independent sets of indoor radon concentration measurements performed in 16 cities of the Republic of Macedonia. The first data set contains winter and annual radon concentration obtained during the National survey in 2010 and the second, contains only the radon concentration measured during the winter of 2013. Both data sets pertain to radon concentration from the same cities and have been measured applying the same methodology in ground floor dwellings. The results appeared to be consistent and the dispersion of radon concentration was low. Linear regression analysis of the radon concentration measured in winter of 2010 and of the 2010 annual radon concentration revealed a high coefficient of determination R-2 = 0.92, with a relative uncertainty of 3%. Furthermore, this model was used to estimate the annual radon concentration solely from winter-term measurements performed in 2013. The geometrical mean of the estimated annual radon concentration of the 2013: radon concentration (A-2013) =98 Bqm(-3) was almost equal to the geometrical mean of the annual radon concentration from the 2010, radon concentration (A-2010) = 99 Bqm(-3). Analysis of the influence of building characteristics, such as presence/absence of a basement in the building, or the dominant building material on the estimated annual radon concentration is also reported. Our results show that a low number of relatively short-term radon measurements may produce a reasonable insight into a gross average obtained in a larger survey.
T2  - Nuclear technology and radiation protection
T1  - Prediction of Long-Term Indoor Radon Concentration Based on Short-Term Measurements
VL  - 32
IS  - 1
SP  - 77
EP  - 84
DO  - 10.2298/NTRP1701077S
ER  - 
@article{
author = "Stojanovska, Zdenka A. and Ivanova, Kremena and Bossew, Peter and Boev, Blažo and Žunić, Zora S. and Tsenova, Martina and Ćurguz, Zoran and Kolarž, Predrag M. and Zdravkovska, Milka and Ristova, Mimoza",
year = "2017",
abstract = "We present a method for the estimation of annual radon concentration based on short-term (three months) measurements. The study involves results from two independent sets of indoor radon concentration measurements performed in 16 cities of the Republic of Macedonia. The first data set contains winter and annual radon concentration obtained during the National survey in 2010 and the second, contains only the radon concentration measured during the winter of 2013. Both data sets pertain to radon concentration from the same cities and have been measured applying the same methodology in ground floor dwellings. The results appeared to be consistent and the dispersion of radon concentration was low. Linear regression analysis of the radon concentration measured in winter of 2010 and of the 2010 annual radon concentration revealed a high coefficient of determination R-2 = 0.92, with a relative uncertainty of 3%. Furthermore, this model was used to estimate the annual radon concentration solely from winter-term measurements performed in 2013. The geometrical mean of the estimated annual radon concentration of the 2013: radon concentration (A-2013) =98 Bqm(-3) was almost equal to the geometrical mean of the annual radon concentration from the 2010, radon concentration (A-2010) = 99 Bqm(-3). Analysis of the influence of building characteristics, such as presence/absence of a basement in the building, or the dominant building material on the estimated annual radon concentration is also reported. Our results show that a low number of relatively short-term radon measurements may produce a reasonable insight into a gross average obtained in a larger survey.",
journal = "Nuclear technology and radiation protection",
title = "Prediction of Long-Term Indoor Radon Concentration Based on Short-Term Measurements",
volume = "32",
number = "1",
pages = "77-84",
doi = "10.2298/NTRP1701077S"
}
Stojanovska, Z. A., Ivanova, K., Bossew, P., Boev, B., Žunić, Z. S., Tsenova, M., Ćurguz, Z., Kolarž, P. M., Zdravkovska, M.,& Ristova, M.. (2017). Prediction of Long-Term Indoor Radon Concentration Based on Short-Term Measurements. in Nuclear technology and radiation protection, 32(1), 77-84.
https://doi.org/10.2298/NTRP1701077S
Stojanovska ZA, Ivanova K, Bossew P, Boev B, Žunić ZS, Tsenova M, Ćurguz Z, Kolarž PM, Zdravkovska M, Ristova M. Prediction of Long-Term Indoor Radon Concentration Based on Short-Term Measurements. in Nuclear technology and radiation protection. 2017;32(1):77-84.
doi:10.2298/NTRP1701077S .
Stojanovska, Zdenka A., Ivanova, Kremena, Bossew, Peter, Boev, Blažo, Žunić, Zora S., Tsenova, Martina, Ćurguz, Zoran, Kolarž, Predrag M., Zdravkovska, Milka, Ristova, Mimoza, "Prediction of Long-Term Indoor Radon Concentration Based on Short-Term Measurements" in Nuclear technology and radiation protection, 32, no. 1 (2017):77-84,
https://doi.org/10.2298/NTRP1701077S . .
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