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Radioactivity of drilling cuttings from shale resources of the lower paleozoic Baltic Basin

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Fractionated drilling wastes originating from shale gas exploration in the Baltic Basin in Polish Pomerania were subjected to measurements of mean activity concentrations of naturally occurring radioactive materials (NORMs). X-ray diffraction (XRD) and scanning electron microscopy (SEM) analyses were used to understand the rock structure and texture. The activity concentration of radionuclides in bulk wastes and fractionated samples (latter obtained through a sieve analysis) was analyzed by using a gamma-ray spectrometer. After fractionation, three different size ranges were distinguished. Radiological indices were estimated by comparison with the levels recommended by the International Association of Oil and Gas Producers (OGP) and an equivalent absorbed dose was determined with respect to appropriated disposal of cuttings. The results showed that the drilling cuttings from the Ordovician period have a natural radioactivity level comparable to other rocks with the same lithology (potassium K-40 800-992 Bq/kg and thorium Th-232 23.3-30.8 Bq/kg) and they did not exceed acceptable levels of the total absorbed dose rate. The average absorbed dose rate in outdoor air one meter above the drilling cuttings was 54.1 nGy/h. The relation between particle size and natural radioactivity indicated that the concentration of radionuclides increased as the fractions size decreased.
Rocznik
Strony
521--533
Opis fizyczny
Bibliogr. 22 poz., rys., tab.
Twórcy
autor
  • Department of Chemical Technology, Faculty of Chemistry, Gdansk University of Technology
autor
  • Department of Chemical Technology, Faculty of Chemistry, Gdansk University of Technology,
autor
  • Department of Chemical Technology, Faculty of Chemistry, Gdansk University of Technology
  • Department of Solid State Physics, Faculty of Applied Physics and Mathematics, Gdansk University of Technology
autor
  • Department of Chemical Technology, Faculty of Chemistry, Gdansk University of Technology
Bibliografia
  • ATALLAH M.F, AWWAD N.S, ALY H.F, 2012, Environmental Radioactivity of TE-NORM Waste Produced from Petroleum Industry in Egypt: Review on Characterization and Treatment,[Online 04.07.2014 http://dx.doi.org/10.5772/CHAPTERDOI].
  • EL AFIFI E.M, AWWAD N.S, 2005, Characterization of the TE-NORM waste associated with oil and natural gas production in Abu Rudeis, Egypt, Journal of Environmental Radioactivity, vol. 82, pp. 7–19.
  • BAKKE T., KLUNGSOYR J., SANNI S., 2013, Environmental impacts of produced water and drilling waste discharges from the Norwegian offshore petroleum industry, Marine Environmental Research, vol. 92, pp. 154-169.
  • HAMLAT M.S, DJEFFAL S., KADI H., 2001, Assessment of radiation exposures from naturally occurring radioactive materials in the oil and gas industry, Applied Radiation and Isotopes vol. 55, pp. 141–146.
  • HARB S., ABBADY E.B, EL-KAMEL E.H, SALEH I.I, EL-MAGEED A.I, 2012, Natural radioactivity and their radiological effects for different types of rocks from Egypt, Radiation Physics and Chemistry, vol. 81, pp. 221-225.
  • HILAL M.A., ATTALLAH M.F., MOHAMED G.Y., FAYEZ-HASSAN M., 2014, Evaluation of radiation hazard potential of TENORM waste from oil and natural gas production, Journal of Environmental Radioactivity, vol. 136, pp. 121-126.
  • HRICHI H., BACCOUCHE S., BELGAIDED J., 2013, Evaluation of radiological impacts of tenorm in the Tunisian petroleum industry, Journal of Environmental Radioactivity, vol. 115, pp. 107-113.
  • INTERNATIONAL ASSOCIATION OF OIL AND GAS PRODUCERS (OGP), 2008, Guidelines for the management of Naturally Occurring Radioactive Material (NORM) in the oil & gas industry, Report No: 412.
  • INTERNATIONAL ATOMIC ENERGY AGENCY, 2010, Radiation protection and the management of radioactive waste in the oil and gas industry, IAEA, Wiedeń.
  • KEMSKI J., SIEHL A., STEGEMANN R., VALDIVIA-MANCHEGO M., 2001, Mapping the geogenic radon potential in Germany, The Science of the Total Environment, vol. 272, pp. 21 -230.
  • KIERSNOWSKI H, DYRKA I., 2014, Potencjał złożowy ordowicko-sylurskich łupków gazonośnych w Polsce: omówienie dotychczasowych raportów i propozycje udoskonalenia metodyki oceny zasobów gazu w raporcie w 2014 r., Przegląd Geologiczny, vol. 61, no. 6, [In Polish].
  • MALCZEWSKI D, BADERA J., LIZUREK G., MIRKOWSKI Z., DORDA J., 2006, Natural radioactivity of the Paleozoic rocks from the area of Krzeszowice (southern Poland). Przegląd Geologiczny, vol. 54, no. 9, pp. 815-822, [In Polish].
  • MALCZEWSKI D., TEPER L., DORDA J., 2004, Assessment of natural and anthropogenic radioactivity levels in rocks and soils in the environs of Swieradow Zdroj in Sudetes, Poland, by in situ gamma-ray spectrometry, Journal of Environmental Radioactivity, vol. 73, pp. 233–245.
  • MYKOWSKA A., HUPKA J.,2014, Radionuclides activity and effective doses referred to geological formations, Journal of Industrial and Intelligent Information vol. 2, no. 4, pp. 284-288.
  • OMEJE M., HUSIN W., NOORDDIN I., SIAK KUAN L., SOHEIL S., 2013, Comparison of activity concentration of 238-U, 232-Th and 40-K indifferent Layers of subsurface Structures in Dei-Deiand Kubwa, Abuja, north central Nigeria, Radiation Physics and Chemistry, vol. 91, pp. 70-80.
  • OTTO, G.H., 1989, A National Survey on Naturally Occurring Radioactive Materials (NORM) in Petroleum Producing and Gas Processing Facilities. Report of the American Petroleum Institute, Dallas, Texas, US.
  • POPRAWA P., 2010, Potencjał występowania złóż gazu ziemnego w łupkach dolnego paleozoiku w basenie bałtyckim i lubelsko-podlaskim, Przegląd Geologiczny, vol. 58, nr 3[In Polish].
  • PRZYLIBSKI T.A., 2004, Concentration of Ra-226 in rocks of the southern part of Lower Silesia (SW Poland, Journal of Environmental Radioactivity, vol. 75, pp. 171-191.
  • RAVISANKAR R., SIVAKUMAR S., A.CHANDRASEKARAN, PRINCE PRAKASH JEBAKUMAR J., VIJAYALAKSHMI I., VIJAYAGOPAL P., VENKATRAMAN B., 2014, Spatial distribution of gamma radioactivity levels and radiological hazard indices in the East Coastal sediments of Tamilnadu, India with statistical approach, Radiation Physics and Chemistry, vol. 103, pp. 89-98.
  • SMITH K.P.,1992, An Overview of Naturally Occurring Radioactive Materials (NORM) in Petroleum Industry, Argonne National Laboratory.
  • UNITED NATIONS SCIENTIFIC COMMITTEE ON THE EFFECTS OF ATOMIC RADIATION (UNSCEAR), 1993, Ionizing radiations: Sources and Biological Effects of Atomic Radiation (UNSCEAR). Report to the General Assembly with annexes, Vienna.
  • UNITED NATIONS SCIENTIFIC COMMITTEE ON THE EFFECTS OF ATOMIC RADIATION (UNSCEAR), 2000, Sources and effects of ionizing radiation. Report to the United Nations General Assembly, New York.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-926d5b44-9e88-436b-a83d-86fc97899822
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