Malinovsky, Georgy

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orcid::0000-0002-9543-3874
  • Malinovsky, Georgy (2)
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Author's Bibliography

Effective Doses Estimated from the Results of Direct Radon and Thoron Progeny Sensors (DRPS/DTPS), Exposed in Selected Region of Balkans

Žunić, Zora S.; Mishra, Rosaline; Čeliković, Igor T.; Stojanovska, Zdenka A.; Yarmoshenko, Ilia V.; Malinovsky, Georgy; Veselinović, Nenad; Gulan, Ljiljana; Ćurguz, Zoran; Vaupotič, Janja; Ujic, Predrag; Kolarž, Predrag M.; Milić, Gordana; Kovacs, Tibor; Sapra, Balvindar K.; Kavasi, Norbert; Sahoo, Sarata Kumar

(2019)

TY  - JOUR
AU  - Žunić, Zora S.
AU  - Mishra, Rosaline
AU  - Čeliković, Igor T.
AU  - Stojanovska, Zdenka A.
AU  - Yarmoshenko, Ilia V.
AU  - Malinovsky, Georgy
AU  - Veselinović, Nenad
AU  - Gulan, Ljiljana
AU  - Ćurguz, Zoran
AU  - Vaupotič, Janja
AU  - Ujic, Predrag
AU  - Kolarž, Predrag M.
AU  - Milić, Gordana
AU  - Kovacs, Tibor
AU  - Sapra, Balvindar K.
AU  - Kavasi, Norbert
AU  - Sahoo, Sarata Kumar
PY  - 2019
UR  - http://vinar.vin.bg.ac.rs/handle/123456789/8481
AB  - The main contribution to population exposure is due to radon and thoron progenies and not radon itself. The aim of this study was therefore to estimate annual effective dose using the results of Direct Radon and Thoron Progeny Sensors were exposed in 69 selected schools and 319 dwellings in several regions of Balkans: in Serbia: regions of Sokobanja and Kosovo and Metohija, Republic of Macedonia, Republic of Srpska and Slovenia. Obtained average total effective doses are in the range from 0.22 mSv a-1 (schools in Republic of Srpska) to 2.5 mSv a-1 (dwellings in Kosovo) and are below the reference level of 10 mSv a-1 recommended by International Commission on Radiological Protection. © The Author(s) 2019. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.
T2  - Radiation Protection Dosimetry
T1  - Effective Doses Estimated from the Results of Direct Radon and Thoron Progeny Sensors (DRPS/DTPS), Exposed in Selected Region of Balkans
VL  - 185
IS  - 3
SP  - 387
EP  - 390
DO  - 10.1093/rpd/ncz025
ER  - 
@article{
author = "Žunić, Zora S. and Mishra, Rosaline and Čeliković, Igor T. and Stojanovska, Zdenka A. and Yarmoshenko, Ilia V. and Malinovsky, Georgy and Veselinović, Nenad and Gulan, Ljiljana and Ćurguz, Zoran and Vaupotič, Janja and Ujic, Predrag and Kolarž, Predrag M. and Milić, Gordana and Kovacs, Tibor and Sapra, Balvindar K. and Kavasi, Norbert and Sahoo, Sarata Kumar",
year = "2019",
url = "http://vinar.vin.bg.ac.rs/handle/123456789/8481",
abstract = "The main contribution to population exposure is due to radon and thoron progenies and not radon itself. The aim of this study was therefore to estimate annual effective dose using the results of Direct Radon and Thoron Progeny Sensors were exposed in 69 selected schools and 319 dwellings in several regions of Balkans: in Serbia: regions of Sokobanja and Kosovo and Metohija, Republic of Macedonia, Republic of Srpska and Slovenia. Obtained average total effective doses are in the range from 0.22 mSv a-1 (schools in Republic of Srpska) to 2.5 mSv a-1 (dwellings in Kosovo) and are below the reference level of 10 mSv a-1 recommended by International Commission on Radiological Protection. © The Author(s) 2019. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.",
journal = "Radiation Protection Dosimetry",
title = "Effective Doses Estimated from the Results of Direct Radon and Thoron Progeny Sensors (DRPS/DTPS), Exposed in Selected Region of Balkans",
volume = "185",
number = "3",
pages = "387-390",
doi = "10.1093/rpd/ncz025"
}
Žunić, Z. S., Mishra, R., Čeliković, I. T., Stojanovska, Z. A., Yarmoshenko, I. V., Malinovsky, G., Veselinović, N., Gulan, L., Ćurguz, Z., Vaupotič, J., Ujic, P., Kolarž, P. M., Milić, G., Kovacs, T., Sapra, B. K., Kavasi, N.,& Sahoo, S. K. (2019). Effective Doses Estimated from the Results of Direct Radon and Thoron Progeny Sensors (DRPS/DTPS), Exposed in Selected Region of Balkans.
Radiation Protection Dosimetry, 185(3), 387-390.
https://doi.org/10.1093/rpd/ncz025
Žunić ZS, Mishra R, Čeliković IT, Stojanovska ZA, Yarmoshenko IV, Malinovsky G, Veselinović N, Gulan L, Ćurguz Z, Vaupotič J, Ujic P, Kolarž PM, Milić G, Kovacs T, Sapra BK, Kavasi N, Sahoo SK. Effective Doses Estimated from the Results of Direct Radon and Thoron Progeny Sensors (DRPS/DTPS), Exposed in Selected Region of Balkans. Radiation Protection Dosimetry. 2019;185(3):387-390
Žunić Zora S., Mishra Rosaline, Čeliković Igor T., Stojanovska Zdenka A., Yarmoshenko Ilia V., Malinovsky Georgy, Veselinović Nenad, Gulan Ljiljana, Ćurguz Zoran, Vaupotič Janja, Ujic Predrag, Kolarž Predrag M., Milić Gordana, Kovacs Tibor, Sapra Balvindar K., Kavasi Norbert, Sahoo Sarata Kumar, "Effective Doses Estimated from the Results of Direct Radon and Thoron Progeny Sensors (DRPS/DTPS), Exposed in Selected Region of Balkans" Radiation Protection Dosimetry, 185, no. 3 (2019):387-390,
https://doi.org/10.1093/rpd/ncz025 .
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Variance of indoor radon concentration: Major influencing factors

Yarmoshenko, Ilia V.; Vasilyev, Aleksey; Malinovsky, Georgy; Bossew, Peter; Žunić, Zora S.; Onischenko, Alexandra; Zhukovsky, Michael

(2016)

TY  - JOUR
AU  - Yarmoshenko, Ilia V.
AU  - Vasilyev, Aleksey
AU  - Malinovsky, Georgy
AU  - Bossew, Peter
AU  - Žunić, Zora S.
AU  - Onischenko, Alexandra
AU  - Zhukovsky, Michael
PY  - 2016
UR  - http://vinar.vin.bg.ac.rs/handle/123456789/819
AB  - Variance of radon concentration in dwelling atmosphere is analysed with regard to geogenic and anthropogenic influencing factors. Analysis includes review of 81 national and regional indoor radon surveys with varying sampling pattern, sample size and duration of measurements and detailed consideration of two regional surveys (Sverdlovsk oblast, Russia and Niska Banja, Serbia). The analysis of the geometric standard deviation revealed that main factors influencing the dispersion of indoor radon concentration over the territory are as follows: area of territory, sample size, characteristics of measurements technique, the radon geogenic potential, building construction characteristics and living habits. As shown for Sverdlovsk oblast and Niska Banja town the dispersion as quantified by GSD is reduced by restricting to certain levels of control factors. Application of the developed approach to characterization of the world population radon exposure is discussed. (C) 2015 Elsevier B. V. All rights reserved.
T2  - Science of the Total Environment
T1  - Variance of indoor radon concentration: Major influencing factors
VL  - 541
SP  - 155
EP  - 160
DO  - 10.1016/j.scitotenv.2015.09.077
ER  - 
@article{
author = "Yarmoshenko, Ilia V. and Vasilyev, Aleksey and Malinovsky, Georgy and Bossew, Peter and Žunić, Zora S. and Onischenko, Alexandra and Zhukovsky, Michael",
year = "2016",
url = "http://vinar.vin.bg.ac.rs/handle/123456789/819",
abstract = "Variance of radon concentration in dwelling atmosphere is analysed with regard to geogenic and anthropogenic influencing factors. Analysis includes review of 81 national and regional indoor radon surveys with varying sampling pattern, sample size and duration of measurements and detailed consideration of two regional surveys (Sverdlovsk oblast, Russia and Niska Banja, Serbia). The analysis of the geometric standard deviation revealed that main factors influencing the dispersion of indoor radon concentration over the territory are as follows: area of territory, sample size, characteristics of measurements technique, the radon geogenic potential, building construction characteristics and living habits. As shown for Sverdlovsk oblast and Niska Banja town the dispersion as quantified by GSD is reduced by restricting to certain levels of control factors. Application of the developed approach to characterization of the world population radon exposure is discussed. (C) 2015 Elsevier B. V. All rights reserved.",
journal = "Science of the Total Environment",
title = "Variance of indoor radon concentration: Major influencing factors",
volume = "541",
pages = "155-160",
doi = "10.1016/j.scitotenv.2015.09.077"
}
Yarmoshenko, I. V., Vasilyev, A., Malinovsky, G., Bossew, P., Žunić, Z. S., Onischenko, A.,& Zhukovsky, M. (2016). Variance of indoor radon concentration: Major influencing factors.
Science of the Total Environment, 541, 155-160.
https://doi.org/10.1016/j.scitotenv.2015.09.077
Yarmoshenko IV, Vasilyev A, Malinovsky G, Bossew P, Žunić ZS, Onischenko A, Zhukovsky M. Variance of indoor radon concentration: Major influencing factors. Science of the Total Environment. 2016;541:155-160
Yarmoshenko Ilia V., Vasilyev Aleksey, Malinovsky Georgy, Bossew Peter, Žunić Zora S., Onischenko Alexandra, Zhukovsky Michael, "Variance of indoor radon concentration: Major influencing factors" Science of the Total Environment, 541 (2016):155-160,
https://doi.org/10.1016/j.scitotenv.2015.09.077 .
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