On release of radionuclides from a near-surface radioactive waste repository to the environment

Gudelis, Arūnas; Gorina, Inga

doi:10.1515/nuka-2015-0091

References

1. Gudelis, A., Nedveckaitė, T., Prokopčiuk, N., Filistovič, V., Remeikis, V., & Motiejūnas, S. (2010). Assessment of radionuclide migration and radiological human exposure at the closed near-surface radioactive waste repository. Nukleonika, 55(2), 251-259.
Search in Google Scholar
2. Nedveckaitė, T., Gudelis, A., & Vives i Batlle, J. (2013). Impact assessment of ionizing radiation on human and non-human biota from the vicinity of a near-surface radioactive waste repository. Radiat. Environ. Biophys., 52(2), 221-234.10.1007/s00411-013-0459-823377320
Search in Google Scholar
3. Gudelis, A., Juodis, L., Konstantinova, M., Remeikis, V., Baltrūnas, D., & Butkus, D. (2006). Results of tritium monitoring in the environment of the Maišiagala radioactive waste repository. In LSC 2005, Advances in Liquid Scintillation Spectrometry (vol. 1, pp. 331-341). Katowice, Poland.
Search in Google Scholar
4. Gudelis, A., Gvozdaitė, R., & Lukoševičius, Š. (2009). On determination of radiocarbon leakage from a shallow- land radioactive waste repository. In LSC 2008, Advances in Liquid Scintillation Spectrometry (vol. 1, pp. 415-420). Davos, Switzerland.
Search in Google Scholar
5. Gudelis, A., Gvozdaitė, R., Kubarevičienė, V., Druteikienė, R., Lukoševičius, Š., & Šutas, A. (2010). On radiocarbon and plutonium leakage to groundwater in the vicinity of a shallow-land radioactive waste repository. J. Environ. Radioact., 101(6), 443-445.10.1016/j.jenvrad.2008.06.00218640750
Search in Google Scholar
6. THALES, ANDRA, Institute of Physics, Lithuanian Energy Institute. (2005). Safety assessment and upgrading of Maišiagala Repository (Lithuania). Upgraded Facility Safety Analysis Report. Vol. 1.
Search in Google Scholar
7. Laboratoire National Henri Becquerel. Recommended data. http://www.nucleide.org/DDEP_WG/DDEPdata.htm.
Search in Google Scholar
8. European Commission Recommendation 2001/928/ EURATOM. Offi cial Journal of European Communities L., 344, 28.12.2001
Search in Google Scholar
9. Vesterbacka, P., Mäkeläinen, I., & Arvela, H. (2005). Natural radioactivity in drinking water in private wells in Finland. Radiat. Prot. Dosim., 113(2), 223-232.10.1093/rpd/nch44615657111
Search in Google Scholar
10. Bonotto, D. M., & Bueno, T. O. (2008). The natural radioactivity in Guarani aquifer groundwater, Brazil. Appl. Radiat. Isot., 66, 1507-1522.10.1016/j.apradiso.2008.03.00818436448
Search in Google Scholar
11. Desideri, D., Meli, M. A., Feduzi, L., Roselli, C., Rongoni, A., & Saetta, D. (2007). U-238, U-234, Ra-226, Po-210 concentrations in bottled mineral waters in Italy and their dose contribution. J. Environ. Radioact., 94, 86-97.10.1016/j.jenvrad.2007.01.00517343961
Search in Google Scholar
12. Walsh, M., Wallner, G., & Jennings, P. (2014). Radioactivity in drinking water supplies in Western Australia. J. Environ. Radioact., 130, 56-62.10.1016/j.jenvrad.2013.12.01624463720
Search in Google Scholar

On release of radionuclides from a near-surface radioactive waste repository to the environment

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