Plutonium and americium in sediments of Lithuanian lakes

Remeikis, V.; Gvozdaite, R.; Druteikiene, R.; Plukis, A.; Tarasiuk, N.; Špirkauskaite, N.

Artykuł - szczegóły

Tytuł artykułu

Plutonium and americium in sediments of Lithuanian lakes

Autorzy

Remeikis V. , Gvozdaite R. , Druteikiene R. , Plukis A. , Tarasiuk N. , Špirkauskaite N.

Treść / Zawartość

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Plutonium and americium in sediments of Lithuanian lakes.pdf

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Abstrakty

The assessment of contribution of the global and the Chernobyl NPP (Nuclear Power Plant) accident plutonium and americium to plutonium pollution in sediments of Lithuanian lakes is presented. Theoretical evaluation of activity ratios of 238Pu/239+240Pu and 241Pu/239+240Pu in the reactor of unit 4 of the Chernobyl NPP before the accident was performed by means of the ORIGEN-ARP code from the SCALE 4.4A program package. Non-uniform distribution of radionuclides in depositions on the Lithuanian territory after nuclear weapon tests and the Chernobyl NPP accident is experimentally observed by measuring the lake sediment pollution with actinides. The activity concentration of sediments polluted with plutonium ranges from 2.0 š 0.5 Bq/kg d.w. (dry weight) in Lake Asave . lis to 14 š 2 Bq/kg d.w. in Lake Juodis. The ratio of activity concentrations of plutonium isotopes 238Pu/239+240Pu measured by á-spectrometry in the 10-cm-thick upper layer of bottom sediment varies from 0.03 in Lake Juodis to 0.3 in Lake Žuvintas. The analysis of the ratio values shows that the deposition of the Chernobyl origin plutonium is prevailing in southern and south-western regions of Lithuania. Plutonium of nuclear weapon tests origin in sediments of lakes is observed on the whole territory of Lithuania, and it is especially distinct in central Lithuania. The americium activity due to 241Pu decay after the Chernobyl NPP accident and global depositions in bottom sediments of Lithuanian lakes has been evaluated to be from 0.9 to 5.7 Bq/kg.

Słowa kluczowe

plutonium isotopes americium sediments isotopic composition

Wydawca

Institute of Nuclear Chemistry and Technology

Czasopismo

Nukleonika

Rocznik

2005

Tom

Vol. 50, nr 2

Strony

61--66

Opis fizyczny

Bibliogr. 19 poz., rys.

Twórcy

autor

Remeikis V.

rasagv@ar.fi.lt

Institute of Physics, 231 Savanoriu Ave., LT-02300 Vilnius, Lithuania, Tel.: +3705/ 266 16 40, Fax: +3705/ 260 23 17

autor

Gvozdaite R.

Institute of Physics, 231 Savanoriu Ave., LT-02300 Vilnius, Lithuania, Tel.: +3705/ 266 16 40, Fax: +3705/ 260 23 17

autor

Druteikiene R.

Institute of Physics, 231 Savanoriu Ave., LT-02300 Vilnius, Lithuania, Tel.: +3705/ 266 16 40, Fax: +3705/ 260 23 17

autor

Plukis A.

Institute of Physics, 231 Savanoriu Ave., LT-02300 Vilnius, Lithuania, Tel.: +3705/ 266 16 40, Fax: +3705/ 260 23 17

autor

Tarasiuk N.

Institute of Physics, 231 Savanoriu Ave., LT-02300 Vilnius, Lithuania, Tel.: +3705/ 266 16 40, Fax: +3705/ 260 23 17

autor

Špirkauskaite N.

Institute of Physics, 231 Savanoriu Ave., LT-02300 Vilnius, Lithuania, Tel.: +3705/ 266 16 40, Fax: +3705/ 260 23 17

Bibliografia

1. Druteikiene. R (1999) Investigation of 239,240Pu spreading in the environmental systems. Doctoral thesis. Institute of Physics, Vilnius.
2. Druteikiene. R, Lukšiene. B (1997) Plutonium in the environment. Atmospheric Physics, Vilnius 19;1:47−57.
3. Galvonaite A (1989) An analysis of meteorological conditions in the Lithuanian SSR after the Chernobyl NPP accident. Atmospheric Physics, Vilnius 14:11−20 (inRussian).
4. Hardy EP, Krey PW, Volchok HL (1973) Global inventory and distribution of fallout plutonium. Nature 241:444−445.
5. Holm E (1977) Plutonium isotopes in the environment. Doctoral thesis. University of Lund, Sweden. LUND D6NFRA-1005:1−37.
6. IAEA (1986) International Nuclear Safety Advisory Group. Summary report on the post-accident review meeting on the Chernobyl accident. IAEA Safety Series No. 75-INSAG-1, 34. IAEA, Vienna.
7. Jaroshinskaya AA (ed.) (1996) Nuclear encyclopaedia. Nauka, Moscow.
8. Kimtys E, Plukis A, Plukiene et al. (2000) Analysis of plutonium isotopic ratios using the SCALE 4.4A code package. Environmental and Chemical Physics, Vilnius 3/4:112−116.
9. Lukšiene. B, Remeikis V, Šalavejus S, Gvozdaite. R, Druteikiene. R (1999) Electrodeposition of plutonium from laboratory and environmental samples. Environmental and Chemical Physics, Vilnius 21;1:51−56.
10. Mietelski JW, Dorda J, Was B (1996) Pu-241 in samples of forest soil from Poland. Appl Radiat Isot 51:435−447.
11. Mietelski JW, Was B (1995) Plutonium from Chernobyl in Poland. Appl Radiat Isot 46;11:1203−1211.
12. Napoleao PAM, Rudak EA (1998) Fast method for mass and activity of nuclides estimation in RBMK core. At Energ 85;3:219−226 (in Russian).
13. Pavlotskaya FI, Myasoedov BF (1991) Plutonium in soils. Priroda 5:57−61 (in Russian).
14. Pietruszewski A, Bojanowski R (1990) Plutonium in the air at Warsaw after Chernobyl accident. In: Proc of the Int Symp on Post-Chernobyl Environmental Radioactivity Studies in East European Countries, Kazimierz upon Wisła. UMCS Press, Lublin, pp 118−126.
15. Remeikis V, Jurkevicius A (2004) Evolution of the neutron sensor characteristics in the RBMK-1500 reactor neutron flux. Nucl Eng Des 231:271−282.
16. Skwarzec B, Struminska DI, Prucnal M (2003) Estimates of 239,240Pu inventories in Gdansk Bay and Gdansk Basin. J Environ Radioactiv 70;3:237−252.
17. Suplińska MM (2002) Vertical distribution of 137Cs, 210Pb, 226Ra and 239+240Pu in bottom sediments from the Southern Baltic Sea in the years 1998−2000. Nukleonika 47;2:45−52.
18. Talvities NA (1972) Electrodeposition of actinides for alpha spectrometric determination. Anal Chem 44;2:280−283.
19. Yamamoto M, Yamuchi Y, Chatani K et al. (1991) Distribution of global fallout 237Np, Pu isotopes and 241Am in lake and sea sediments. J Radioanal Nucl Chem, Art 147;1:165−176.

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Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-article-BUJ6-0004-0070