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NORM in the extraction industry: Challenges and opportunities

Published online by Cambridge University Press:  09 January 2012

B. Michalik*
Affiliation:
Central Mining Institute (GIG), Poland
R.S. Sidhu
Affiliation:
Institute for Energy Technology (IFE), Norway
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Abstract

One of the most serious problems occurring during coal extraction in Upper Silesia in Poland is caused by waters with high salinity which also often contain high concentrations of natural radionuclides, mainly 226Ra and 228Ra. Similar phenomenon is also observed in oil and gas industry. On the Norwegian continental shelf, substantial amounts of produced waters containing elevated levels of 226Ra and 228Ra are discharged to the sea. All of these facts outlined elsewhere in the reports serious resulted in contamination of wide areas surrounding mines and other related industries. Research studies conducted so far have provided a lot of data concerning the scale of this phenomenon. But nowadays, all of them should be reconsidered in the light of newest recommendation of the state of-the-art radiation protection. Namely, such waste deposited directly into the environment creates significant risk to the non-human biota that currently must be assessed as well. On the other hand, such scenario of exposure to ionising radiation creates a good opportunity to observe potential effects of low and protracted doses to the living organisms occurring on contaminated areas, especially plants.

Type
Research Article
Copyright
© Owned by the authors, published by EDP Sciences, 2011

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References

IAOGP (2008): International Association of Oil and Gas Producers. Guidelines for the management of Naturally Occurring Radioactive Material (NORM) in the Oil & Gas Industry Report No. 412.
Michalik B. (2004): Environmental pollution caused by natural radioactivity occurring in mining industry – the scale of the problem. Sustainable Post-Mining Land Management, Edited by: Euromines, CBPM CUPRUM Wrocław and Mineral and Energy Economy Research Institute Polish Academy of Science, Kraków – Wrocław, p. 145–154.
Chałupnik S., Michalik B., Wysocka M., Skubacz K., Mielnikow A. (2001): Contamination of settling ponds and rivers as a result of discharge of radium-bearing waters from Polish coal mines. Journal of Environmental Radioactivity 54, pp. 85–98.
Karsten L., Michalik B., Wiegand J. (2007): Availability of radium isotopes and heavy metals from scales and tailings of Polish hard coal mining. Journal of Environmental Radioactivity 94, s. 137–150.
Godoy, José Marcus; Petinatti da Cruz, Rosana.  (2003): 226Ra and 228Ra in scale and sludge samples and their correlation with the chemical composition Journal of Environmental Radioactivity Volume: 70, Issue: 3, pp. 199-206
Michalik B., Wysocka M., Chałupnik S., Skubacz K., Mielnikow A., Trząski L. (2005): Contamination Caused by Radium Discharged with Mine Effuents into Inland Waters, Radioprotection Vol. 40, Suppl. 1 p. 503–509.
Gäfvert, T. and Færevik, I. (2005). Natural Radioactivity in Produced Water from the Norwegian Oil and Gas Industry in 2003. NRPA Report 2005:2.