The indoor radon survey in Serbian schools: can it reflect also the general population exposure?

Žunić, Z. S.; Bossew, P.; Veselinović, N.; Bochicchio, F.; Carelli, V.; Vaupotič, J.; Čuknić, O.; Simović, R.; Vojinović, Z.; Kisić, D; Tollefsen, T.

Artykuł - szczegóły

Tytuł artykułu

The indoor radon survey in Serbian schools: can it reflect also the general population exposure?

Autorzy

Žunić Z. S. , Bossew P. , Veselinović N. , Bochicchio F. , Carelli V. , Vaupotič J. , Čuknić O. , Simović R. , Vojinović Z. , Kisić D , Tollefsen T.

Treść / Zawartość

Pełne teksty:

The indoor radon survey in Serbian schools.pdf

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Identyfikatory

Warianty tytułu

Konferencja

Proceedings of the International Conference "Radon in Environment" 10-14 May 2009, Zakopane Poland

Języki publikacji

Abstrakty

A systematic indoor radon survey in elementary schools of Serbia is underway since 2008. Its current first phase covers all elementary schools in predominantly rural communities of Southern Serbia. The design of the survey, its implementation and the current state of its realization is shortly described. Part of this paper is devoted to discussion of the question if this survey could produce results representative also of the radon concentration in dwellings and of radon exposure of the general population, discussing some statistical aspects of representativity which arose during the work, namely, if the implementation leads to an unbiased estimate of the targeted quantities.

Słowa kluczowe

indoor radon survey school Serbia

Wydawca

Institute of Nuclear Chemistry and Technology

Czasopismo

Nukleonika

Rocznik

2010

Tom

Vol. 55, No. 4

Strony

419--427

Opis fizyczny

Bibliogr. 31 poz., rys.

Twórcy

autor

Žunić Z. S.

autor

Bossew P.

autor

Veselinović N.

autor

Bochicchio F.

autor

Carelli V.

autor

Vaupotič J.

autor

Čuknić O.

autor

Simović R.

autor

Vojinović Z.

autor

Kisić D

autor

Tollefsen T.

Electro Chemical Etching Laboratory, Vinča Institute of Nuclear Sciences, P. O. Box 522, 11000 Belgrade, Serbia, pbossew@bfs.de

Bibliografia

1. Bossew P, Dubois G (2008) Geostatistical challenges encountered in mapping indoor radon concentrations. In: Ortiz J, Emery X (eds) Proc of the 8th Int Geostatistics Congress, Geostats 2008, 1–5 December 2008, Santiago, Chile. Gecamin Ltd, Santiago, pp 851–860, http://downloads.gecamin.cl/cierre_eventos/geostats2008/ prsntens/00162_00731_prpr.pdf
2. De Cort M, Tollfsen T, Bossew P (2009) Rationale, history and projected future of European radon maps, as part of the European natural radiation atlas. Int Conf Radon in Environment, 10–14 May 2009, Zakopane, Poland. Presentation A17, http://radon.ifj.edu.pl/zakopane2009/
3. Dubois G (2005) An overview of radon surveys in Europe. EU Report, EUR 21892 EN. Office for Official Publications of the European Communities, Luxembourg, http://radonmapping.jrc.ec.europa.eu/fileadmin/Documents/WorkingDocuments/EU_Reports/EUR_RADON_2005_final.pdf
4. Dubois G, Bossew P, Tollefsen T, De Cort M (2009) First steps towards a European atlas of natural radiation: status of the European indoor radon map. J Environ Radioactiv 101;10:786–798, http://dx.doi.org/10.1016/j.jenvrad.2010.03.007
5. Friedmann H, Bossew P (2010) Selected statistical problems in spatial evaluation of Rn related variables. Nukleonika 55;4:429–432
6. Gaidolfi L, Malisan MR, Bucci S et al. (1998) Radon measurements in kindergardens and schools of six Italian regions. Radiat Protect Dosim 78:73–76
7. Križman M, Ilić R, Škvarč J, Jeran Z (1996) A national survey of indoor radon concentrations in dwellings in Slovenia. In: Glavič-Cindro D (ed) Proc of the Symp on Radiation Protection in Neighbouring Countries in Central Europe, 4–8 September 1995, Portorož, Slovenia. Jožef Stefan Institute, Ljubljana, pp 66–70
8. Maringer F-J (coordinator) (2003) Innenraumsituation in OÖ. Pflichtschulen, Berufsschulen und Landwirtschaftlichen Fachschulen. Erhebungs- und Messprogramm. Endbericht, April 2003. Upper Austrian Provincial Government
9. Meisenberg O, Tschiersch J (2009) Specific properties of a model of thoron and its decay products in indoor atmospheres. Nukleonika 55;4:463–469
10. Miles JCH (2001) Sources of bias in data for radon potential mapping. In: Proc of the 3rd EuroSymposium on Protection Against Radon, 10–11 May 2001, Liege, Belgium
11. Onishchenko A, Zhukovsky M, Veselinović N, Žunić ZS (2010) Radium-226 concentration in spring water sampled in high radon regions. Appl Radiat Isot 68:825-827
12. Paridaens J, Vanmarcke H, Jakobs K, Žunić ZS (2000) Retrospective radon assessment of Po-210 activity measurements. Appl Radiat Isot 53:361–364
13. Paridaens J, Vanmarcke H, Žunić ZS, McLaughlin JP (2001) Field experience with volume traps for assessing retrospective radon exposures. Sci Total Environ 272:295–300
14. Paridaens J, Žunić ZS, Trotti F, McLaughlin JP, Vanmarcke H (2002) Correlation between Rn exposure and 210Po activity in Yugoslavian rural communities. ICR 1225:87–93
15. Ujić P, Čeliković I, Kandić A et al. (2010) Internal exposure from building materials exhaling 222Rn and 220Rn as compared to external exposure due to their natural radioactivity content. Appl Radiat Isot 68:201–206
16. Ujić P, Čeliković I, Kandić A, Žunić ZS (2008) Standardization and difficulties of the thoron exhalation rate measurements using an accumulation chamber. Radiat Meas 43:1396–1401
17. Vaupotič J, Andjelov M, Kobal I (2002) Relationship between radon concentration in indoor air and in soil gas. Environ Geol 42:583–587
18. Vaupotič J, Hunyadi I, Baradács E (2001) Thorough investigation of radon in a school with elevated levels. Radiat Meas 34:477–482
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20. Vaupotič J, Križman M, Planinić J et al. (1994) Systematic indoor radon and gamma measurements in kindergartens and play schools in Slovenia. Health Phys 66:550–556
21. Vaupotič J, Šikovec M, Kobal I (2000) Systematic indoor radon and gamma-ray measurements in Slovenian schools. Health Phys 78: 559–562
22. WHO (2001) Air quality guidelines, 2nd ed. World Health Organization – Regional Office for Europe, Copenhagen, Denmark
23. Yarmoshenko IV, Žunić ZS, McLaughlin JP, Paridaens J, Kirdin IA, Kelleher K (2005) Indoor radon long-term variation assessment. J Environ Radioactiv 7:726–730
24. Žunić ZS, Janik M, Tokonami S et al. (2009) Field experience with soil gas mapping using Japanese passive radon/thoron discriminative detectors for comparing high and low radiation areas in Serbia (Balkan Region). J Radiat Res 50:355–361
25. Žunić ZS, Kelleher K, Čeliković I et al. (2009) A comparison carried out in the Serbian spa of Niska Banja. Nucl Technol Radiat Protect 24;2:94–99
26. Žunić ZS, Kobal I, Vaupotič J et al. (2006) High natural radiation exposure in radon spa areas: a detailed field investigation in Niška Banja (Balkan region). J Environ Radioactiv 89:249–260
27. Žunić ZS, Kozak K, Ciotoli G et al. (2007) A campaign of discrete radon concentration measurements in soil of Niška Banja town, Serbia. Radiat Meas 42:1696–1702
28. Žunić ZS, McLaughlin JP, Walsh C et al. (2001) Integrated natural radiation exposure studies in stable Yugoslav rural communities. Sci Total Environ 272:253–259
29. Žunić ZS, McLaughlin JP, Walsh C, Benderac R (1999) The use of SSNTDS in the retrospective assessment of radon exposure in high radon rural communities in Yugoslavia. Radiat Meas 31:343–346
30. Žunić ZS, Yarmoshenko IV, Birovljev A et al. (2007) Radon survey in the high natural radiation region of Niška Banja, Serbia. J Environ Radioactiv 92:165–174
31.Žunić ZS, Yarmoshenko IV, Kelleher K et al. (2007) Comparison of retrospective and contemporary indoor radon measurements in a high-radon area of Serbia. Sci Total Environ 387:269–275

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-article-BUJ7-0014-0065