Identyfikatory
Warianty tytułu
Konferencja
Proceedings of the International Conference "Radon in Environment" 10-14 May 2009, Zakopane Poland
Języki publikacji
Abstrakty
Radon was surveyed in all the kindergartens and schools, major hospitals, water plants, wineries, spas, in a number of other public buildings, and karst caves with emphasis on the Postojna Cave (Slovenia). In addition to radon, also the concentration of radon short-lived decay products, equilibrium factor between radon and decay products, and unattached fraction of decay products have been monitored. Effective doses were calculated and used as a criterion to require remediation.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
565--571
Opis fizyczny
Bibliogr. 27 poz., rys.
Twórcy
autor
- Department of Environmental Sciences, Radon Center, Jožef Stefan Institute, 39 Jamova Str., SI-1000 Ljubljana, Slovenia, Tel.: +386 1 477 3213, Fax: +386 1 477 3811, janja.vaupotic@ijs.si
Bibliografia
- 1. Brajnik D, Križman M, Kobal I, Stegnar P (1988) Sources of technologically enhanced natural radioactivity and their impact in Slovenia. Radiat Prot Dosim 24:551–554
- 2. ICRP (1994) Protection against radon-222 at home and at work. International Commission on Radiological Protection. Publication no. 65. Pergamon Press, Oxford
- 3. Decree on dose limits, radioactive contamination and intervention levels (2004) Uradni list Republike Slovenije– Slovenian Gazette, UL RS 49/2004
- 4. Iskra I, Remškar M, Kobal I, Vaupotič J (2009) Preliminary results of nanoparticle measurement in the Postojna Cave.In: Book of abstracts of the 17th Int Karstological School Classical Karst, 15–20 June 2009, Postojna, Slovenia, p 64
- 5. Kobal I, Fedina Š (1987) Radiation doses at the Radenci health resort. Radiat Prot Dosim 20:257–259
- 6. Kobal I, Smodiš B, Škofljanec M (1987) Atmospheric 222Rn in tourist caves of Slovenia. Health Phys 52:477–479
- 7. Kobal I, Vaupotič J, Udovč H, Burger J (1990) Radon concentration in the air of Slovene underground mines. Environ Int 16:171–173
- 8. Kristan J, Kobal I (1974) A modified alpha scintillation cell for the determination of radon in uranium mine atmosphere. Health Phys 24:103–104
- 9. Križman M (2001) Report on the intercomparison experiment on radon and progeny in air. Slovenian Nuclear Safety Administration Report URSJV RP 47/2001
- 10. Nero AV Jr (1988) Radon and its decay products in indoor air: an overview. In: Nazaroff WW, Nero AV Jr (eds) Radon and its decay products in indoor air. Wiley, New York, pp 1–53
- 11. Porstendörfer J (1996) Radon: measurements related to dose. Environ Int 22;S1:S563–S583
- 12. Urban M, Schmitz J (1993) Radon and radon daughters methodology: basic aspects. In: Proc of the 5th Int Symp on the Natural Radiation Environment – tutorial sessi on. Report EUR 14411 EN, pp 151–183
- 13. Vaupotič J (2002) Search for radon sources in buildings – kindergartens. J Environ Radioact 61:365–372
- 14. Vaupotič J (2006) Radon exposure at drinking water supply plants in Slovenia. Health Phys 83:901–906
- 15. Vaupotič J (2006) Radon survey and exposure assessment in hospitals. Radiat Prot Dosim 121:158–167
- 16. Vaupotič J (2007) Nanosize radon short-lived progeny aerosols in Slovenian kindergartens in wintertime. Chemosphere 69:856–863
- 17. Vaupotič J (2008) Comparison of various methods of estimating radon dose at underground workplaces in wineries. Radiat Environ Biophys 47:527–534
- 18. Vaupotič J (2008) Nanosize radon short-lived decay products in the air of the Postojna Cave. Sci Total Environ 393:27–38
- 19. Vaupotič J, Ančik M, Škofljanec M, Kobal I (1992) Alpha scintillation cell for direct measurement of indoor radon. J Environ Sci Health A 27:1535–1540
- 20. Vaupotič J, Csige I, Radolić V, Hunyadi I, Planinić J, Kobal I (2001) Methodology of radon monitoring and ,dose estimates in Postojna Cave, Slovenia. Health Phys 80:142–147
- 21. Vaupotič J, Kobal I (2001) Radon exposure in Slovenian spas. Radiat Prot Dosim 97:265–270
- 22. Vaupotič J, Kobal I (2002) Correlation between short-term and long-term radon measurements. Isot Environ Health Stud 38:39–46
- 23. Vaupotič J, Kobal I (2006) Effective doses in schools based on nanosize radon progeny aerosols. Atmos Environ 40:7494–7507
- 24. Vaupotič J, Kobal I, Kozak K, Mazur J, Janik M, Kochowska E (2009) Calibration of radon measuring devices of the Radon Center in the IFJ-KR-600 Radon Chamber. Jožef Stefan Institute Report IJS-DP-10103
- 25. Vaupotič J, Križman M, Planinič J et al. (1994) Systematic radon and gamma measurements in kindergartens and play schools in Slovenia. Health Phys 66:550–556
- 26. Vaupotič J, Šikovec M, Kobal I (2000) Systematic radon and gamma-ray measurements in Slovenian schools. Health Phys 78:559–562
- 27. Žvab P, Vaupotič J, Dolenec T (2006) Reasons for elevated radon levels inside the building in Divača. Geologija (Ljubljana) 49:409–415
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUJ7-0014-0091