Spatial distribution of equivalent gamma dose rate in the vicinity of mine water sedimentation ponds in Upper Silesian Coal Basin

• Autorzy: Śleziak M. , Duliński M.
• Konferencja: Proceedings of the International Conference on Development and Applications of Nuclear Technologies NUTECH-2011, 11-14 September 2011, Kraków, Poland
• Języki publikacji: EN

Abstrakty

EN

In the Upper Silesian Coal Basin highly mineralized mine waters are pumped into numerous sedimentary ponds before discharge to the Vistula river. They contain elevated concentrations of natural radionuclides (mainly radium). In ponds, some fraction of radionuclides is removed from the water column by adsorption on settling particles, precipitation or co-precipitation, thus increasing radioactivity levels in the deposits. Due to fluctuations of water level and wind action, fine fraction of the deposited material can be distributed in the vicinity of ponds. Three ponds have been selected for survey of the gamma equivalent dose: Brzeszcze, Kaniów, and Rontok Duży. The lowest dose rates, below 0.33 miSv/h, were detected in the area of the Brzeszcze pond. The highest values were measured over the sediments of the Kaniow pond (8.37 miSv/h), being 30 times higher than the dose rate received by population in Poland from natural sources.

Słowa kluczowe

EN

spatial equivalent gamma dose rate; natural radioactivity; sedimentation pond

• Wydawca: Institute of Nuclear Chemistry and Technology
• Czasopismo: Nukleonika
• Rocznik: 2012
• Tom: Vol. 57, No. 4
• Strony: 597--599
• Opis fizyczny: Bibliogr. 7 poz., rys.

Twórcy

autor

Śleziak M.

autor

Duliński M.

• AGH University of Science and Technology, Faculty of Physics and Applied Computer Science, al. A. Mickiewicza 30, 30-059 Krakow, Poland, Tel.: +48 12 617 2966, Fax: +48 12 634 0010,

Bibliografia

• 1. Chałupnik S (2007) Radium-bearing waters in coal mines in Upper Silesia Region – methods of monitoring, the impact on the natural environment and mitigation measures. Prace Naukowe, Główny Instytut Górnictwa, no. 870, Katowice (in Polish)
• 2. Chałupnik S, Michalik B, Wysocka M, Skubacz K, Mielnikow A (2001) Contamination of settling ponds andrivers as a result of discharge of radium-bearing waters from Polish coal mines. J Environ Radioactiv 54:85–98
• 3. Michalik B, Chałupnik S, Wysocka M, Skubacz K (2000) Behaviour of radium discharged waste waters into the surface settling pond. In: Proc of the 7th Int Mine Water Association, 11–15 September 2000, Ustroń, Poland, pp 443–455
• 4. Michalik B, Chałupnik S, Wysocka M, Skubacz K (2002) Ecological problems of the coal industry and the ways to solve them. J Min Sci 38;6:601–607
• 5. Michalik B, Wysocka M, Chałupnik S, Skubacz K, Mielnikow A, Trząski L (2005) Contamination caused by radium discharged with mine effluents into inland waters. Radioprotection 40;Suppl 1:S503–S509
• 6. Ludlum (2005) Ludlum Model 19 Micro R Meter – manual, Ludlum Measurements, Inc. www.drct.com
• 7. PAA (2011) State of nuclear and radiological safety in Poland in 2010 year. Report PAA. Państwowa Agencja Atomistyki, Warsaw (in Polish)