Assessment of Naturally Occurring Radionuclide in Soil Samples from Kutayi Mining Sites in Muya Local Government Area, Niger State, Nigeria

Authors

  • I. K. Suleiman

DOI:

https://doi.org/10.62292/njtep.v2i2.2024.37

Keywords:

Radionuclides, Soil mining, Activity concentration, Absorbed dose, Niger state

Abstract

This work examines the Kutayi mining sites with a view of assessing the activity concentration and effective dose rate of NORM (i.e. 40K, 232Th and 226Ra) in these site absorbed in 8 soil samples collected from different areas within the Kutayi mining sites, A γ-ray spectrometry NaI (Tl) at CERT. ABU Zaria, was used to carry out the analysis of the soil samples. The result shows that, activity concentration for 40K ranged from 428.9269 to 93.6236 BqKg-1; for 226Ra it ranged from 50.1738 to 13.7891 BqKg-1 and for 232Th the ranged is from 52.1095 to 18.7457 Bq.Kg-1, the absorbed dose for 40K ranged from 17.8863 to 3.9041 ŋGy.h-1, for 226Ra the range is from 23.1803 to 3.1614 ŋGy.h-1 and for 232Th range from 31.47419 to 11.3224 ŋGy.h-1. The total mean absorbed dose rate is 42.5341 ŋGy.h-1 and the annual effective dose  range from 0.0355 mSvy-1 (i.e. 36 – 76 μSv.y-1), with an mean annual effective dose of  0.0522 mSv.y-1 (i.e. 52.2 μSv.y-1, Also the mean Radium Equivalents (Raeq) obtained ranged from 64.0280 BqKg-1 (KT6) to 135.3245 BqKg-1 (KT8). This results show that, the Raeq is  370 BqKg-1 which is the requirement for soil to be used for dwellings; hence the soil from this site is suitable use for buildings. The mean Hext ranged from 0.1730 Bqkg-1 (KT6) to 0.3438 Bqkg-1 (KT8). The maximum allowed value of (Hext = 1) corresponds to the upper limit of Raeq (370 BqKg-1) in order to limit the external gamma radiation dose from the soil to 1.5 mGy y-1, i.e. index should Hext  = 1. All these values for Iα are below the maximum permissible value of Iα= 1 which corresponds to 200 Bq.Kg-1. Hence no radiological hazard is envisaged to dwellers of the study areas and the miners working on those sites.

References

Agbalagba, E.O and Onoja, R.A. (2011). Evaluation of natural radioactivity in soil, Sediment and water samples of Niger Delta (Biseni) flood plain lakes, Nigeria. Journal of Environmental Radioactivity, 102,667-671.

Ahmad, M.N and Hussein, A.J (1998).Natural radioactivity in Jordian soil and buiding materials and the associated irradiation hazards .J. Environ. Radioactive 39(1): 9-22.

Ajayi,O.S. (2009) : Measurement of activity concentrations of 238U, 232Th and 40K for the assessment of radiation hazards from soil of southern region of Nigeria where thirty (38) samples were analysed and obtained range of activity for the respective nuclides from which radiological indices were estimated. Radiation Environ Biophys , 48, 323-332.

Alatise O.O., Babalola,I.A., Olowofela.,J.A,(2008).Studies on the radiation level and radionuclide distribution of prominent NORM in the soil of coastal areas of Southern Nigeria provided useful baseline data for effective monitoring of potential radioactive fallout due to industrial activities in the five coastal oil producing states. Journal of Environmental Radioactivity, 99(11), 1746- 1749.

Auwal, M.M. Funtua, Mallam, S.P.,Abdullahi, A.S. (2010).Distribution of some natural gamma radionuclides in soils around the centre for energy research and training (CERT) Ahmadu Bello University, Zaria, Zaria- Nigeria. Journal of American Science,6(12),995-1001.

Beretka, J and Mathew. P (1985). Natural radioactivity of Australian building materials industrial wastes and by-products. Health Physics.48, 87-95.

Faweya A.E.B and Oniya E.O.(2012;10(5)): A study on Radiological Safety Assessment and Physico- Characterization of soil mixed with mine tailings used as building materials from Oke-Kusa Mining sites in Ijero, Nigeria. Nature and Science, 10(5).

CERTZ (1999): Operation of Sodium Iodide-Thallium Gamma Spectrometry System Manual, Centre for Energy Research and Training Manual, ABU, Zaria, Nigeria.

Christiana A, Onimisi MY and Jonah SA (2010): Determination of Naturally Occurring radionuclide’s along River Kaduna, Personal Communication.

Harb, S., Salahel, D. K Abbady, A., Mostafa, M (2010): Activity concentration for surface soil samples collected from Armant, Qena, Egypt. Proceedings of the 4th Environmental Physics Conference, Hurghada, Egypt. 2010: 2010 ;( 4): 49-57.

HRD-WHS-GUI-144.6 Appendix C - Dose Limits for Exposure to Ionizing Radiation 2012 October Page 1 of 1.

Ibeanu, I.G.E., Funtua I.I, Adeyeme D.J., Bappah A.I., Umar I.M. (2000) Radiation Monitoring Programme for the Centre for Energy and Training (CERT) Nuclear research site and environs. Second technical report of the Centre for Energy Research and Training (CERT), Ahmadu Bello University, Zaria CVERT /MNSR/RMP/02.

IAEA (1999): Safety report on radiation protection and the management of a radioactive waste in mine, oil and gas industries, International Atomic Energy Agency, New York.

IAEA (2011): Nuclear Safety Review for the Year 2010, International Atomic Energy Agency, Publication by the IAEA in Austria.

IAEA-TECDOC-1472 (2004); Naturally occurring radioactive materials (NORM IV)Proceedings of an international conference held in Szczyrk, Poland, 17–21 May 2004

October.

Innocent A, Onimisi MY, and Jonah SA,(2013): A Study to Evaluate the Naturally occurring Radionuclides Materials (NORM) ii soil samples collected from some mining sites in Zamfara State, Nigeria using NaI(TI)detector. British Journal of Applied Science & Technology- 3(4):684-692.

Isinkaye M.O and Faweya, E.B.(2006).Occurrence of natural radionuclides in refuse dumpsites within the city of Ado-Ekiti. South Western Nigeria. Cent. Euro.J of occup.and Environ. Med. 12(1):9-14.

Jonah, S.A, Okunade, I.O., Ibeanu, I.G.E., Jimba, B.W. (2002). Natural radionuclides and elemental composition of chemical fertilizers used in Nigeria. Nucl. Sci .4(1), 49-52.

Jibrin and Okeyode I.C. (2012).Natural radionuclides in the sediments of Ogun River in South Western Nigeria determined using Gamma-ray Spectrometry compared well withthe values from other countries of normal radiation areas. Radiation Physics and Chemistry, 81,103-112.

Krisuik, E.M Tarasov, S.I. Shamov, V.P, Shalak, N.I. Lisa Chenko, E.P and Gomelsky, L.G.A (1971). Study on radioactivity in building materials (Leningradi: Research Institute for Radiation Hygiene).

Mangset W.E and Sheyin A.T, 2009).Measurement of Radionuclides in processed mine tailings in Jos,Plateau State using NaI(TI)detector. Bayero Journal of pure and Applied Science 2(2): 56-60.

Odumo, O.B., Mustapha, A.O., Patel, J.P., Angeyo, H.K., (2011): Radiological survey and assessment of the naturally occurring radioactive materials (NORM) in the migori artisanal gold mining belt of southern Nyanza, Kenya Applied Radiation and Isotopes, 69,912-916.

Okeyode I.C and Akanni A.O. (2009): Determination of some physical parameters of Olumo rock, Abeokuta Ogun-State, Nigeria, Indian Journal of Science and Technology Vol.2 No 7, 0974-6846.

Serway and Raymond A; (2009). College Physics Belmont, CA: Brooks Cole. p.876

Stranden E. (1976). Some aspects on radioactivity of building materials. Physical Norvegica. 8:167-177.

Titaeva, N.A, Alexakhin, R.M, Taskaev, A.I and Maslov, V.I (1978): Migration of heavy natural radionuclides in a humid climate zone, Natural Radiation Environment (111). Techanical Information Centre US Department of Energy 724-737.

Umar A.M., Onimisi M.Y., Jonah S.A. (2012): Baseline measurement of natural radioactivity in soil, vegetation and water in the industrial district of the Federal Capital Territory (FCT) Abuja, Nigeria, British Journal of Applied Science & Technology 2(3): 266-274.

UNSCEAR (2000): Radiological Protection Bulletin, United Nations Scientific Committee on the Effects of Atomic Radiation No. 224, New York.

UNSCEAR (2000): Annex B: Exposures to Natural Radiation Sources Report to the general assembly with scientific annexes. United Nations Scientific Committee on the effect of Atomic Radiation, New York.

UNSCEAR (2000): Source and effects of ionizing radiation report to the general assembly with scientific annexes. United Nations Scientific Committee on the effect of Atomic Radiation, New York.

UNSCEAR (2000): Radiological Protection Bulletin, United Nations Scientific Committee on the Effects of Atomic Radiation No. 224, New York.

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Published

2024-06-30