Measurements of the ambient dose equivalent rates around the Manyoni uranium deposit in Tanzania
DOI:
https://doi.org/10.15392/2319-0612.2023.2251Keywords:
background radiation, ambient dose equivalent rate, uranium depositAbstract
In this study, pre-mining ambient gamma dose equivalent rates at 1 m above the ground were measured using a Gamma-Scout portable radiation survey meter at two sites, A and B, around the Manyoni uranium deposit in Tanzania. Site A is expected to receive mine-dust particles with an aerodynamic diameter ≤ 10 µm (PM10) that have mean annual ground level concentrations (AGLC) ≥ 10% of the WHO air quality guideline limit of 20 µg/m3, and Site B is expected to receive PM10 with a mean AGLC ≥ 20 µg/m3. At Site A, the average of the ambient dose equivalent rates was 0.25 ± 0.03 µSv/h and ranged from 0.08 to 0.69 µSv/h. Similarly, at Site B, the average of the ambient dose equivalent rates was 0.23 ± 0.02 µSv/h and ranged from 0.12 to 0.34 µSv/h. The effect of the local geology on the measured dose rates was also presented. Since the ambient dose equivalent is an operational quantity for area monitoring, the results of this study will be very useful for comparing with the operational monitoring results of Sites A and B once uranium mining starts in Manyoni. This can help mine operators and regulatory agencies keep an eye on any rise in background radiation so they can take the necessary measures to safeguard locals and the environment from the harmful effects of ionising radiation.
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References
UNSCEAR - United Nations Scientific Committee on the Effects of Atomic Radiation. Sources and effects of ionizing radiation: United Nations Scientific Committee on the Effects of Atomic Radiation: UNSCEAR 2000 report to the General Assembly, with scientific annexes. Volume I: Sources. New York: United Nations, 2000.
BAI, H.; HU, B.; WANG, C.; BAO, S.; SAI, G.; XU, X.; ZHANG, S.; LI, Y. Assessment of radioactive materials and heavy metals in the surface soil around the Bayanwula prospective uranium mining area in China. Int J Environ Res Public Health, v. 14, article 300, 2017.
BANZI, F. P.; MSAKI, P. K.; MOHAMMED, N. K. Assessment of natural radioactivity in soil and its contribution to population exposure in the vicinity of Mkuju River uranium project in Tanzania. Expert Opin Environ Biol, v. 6, article 140, 2017.
SEMIONO, P.; MWALONGO, D. A.; MKILAHA, I. S. N.; MATO, R. R. A. M.; JACKSON, M. M. Investigation of natural background gamma ray doses in the proposed uranium mines at Bahi and Manyoni. Ethiop J Environ Stud Manag, v. 10, p. 1094–1105, 2017.
TOP, G.; ÖRGÜN, Y.; AYAZLI, I. E.; BELIVERMIS, M.; KARACIK, Z.; KAMPFL, G. Determination of Ra-226, Th-232, K-40 and Cs-137 activities in soils and beach sands and related external gamma doses in Arikli mineralization area (Ayvacik/Turkey). Radiat Prot Dosimetry, v. 193, p. 137–154, 2021.
MAJAWA, L. J.; TSHIVHASE, V. M.; DLAMINI, T. Radioactivity assessment of surface soil in the vicinity of a uranium mine in Malawi. Radiat Prot Dosimetry, v. 198, p. 1353–1360, 2022.
LOLILA, F.; MAZUNGA, M. S. Measurements of natural radioactivity and evaluation of radiation hazard indices in soils around the Manyoni uranium deposit in Tanzania, J Radiat Res Appl Sci, v. 16, article 100524, 2023.
OKEYODE, I. C.; RABIU, J. A.; ALATISE, O. O.; MAKINDE, V.; AKINBORO, F. G.; AL-AZMI, D.; MUSTAPHA, A. O. Area monitoring of ambient dose rates in parts of south-western Nigeria using a GPS-integrated radiation survey meter. Radiat Prot Dosimetry, v. 173, p. 263–267, 2017.
LAITH, S. Background Radiation in Najaf city, Iraq. World Sci News, v. 92, p. 378–384, 2018.
ENCABO, R. R.; CRUZ, P. T. F.; BONGA, A. C.; DELA SADA, C. L.; OMANDAM, V. J.; OLIVARES, J. U.; IWAOKA, K.; FELICIANO, C. P. Measurement of ambient gamma dose rate in Metro Manila, Philippines, using a portable NaI(TI) scintillation survey meter. Environ Monit Assess, v. 192, article 400, 2020.
KARDAN, M. R.; SADEGHI, N.; FATHABADI, N.; ATTARILAR, A. Assessment of terrestrial radiation by direct measurement of ambient dose equivalent rate of background radiation. Radiat Prot Dosimetry, v. 184, p. 189–197, 2019.
Nuclear Energy Agency; International Atomic Energy Agency. Uranium 2016: resources, production and demand. Paris: OECD Publishing, 2016.
LOLILA, F.; MAZUNGA, M. S.; NDABENI, N. B. Demarcation of pollution-prone areas around the Manyoni Uranium Project, Tanzania. Aerosol Air Qual Res, v. 22, article 220214, 2022.
LOLILA, F.; MAZUNGA, M.; NDABENI, N. Baseline measurements of natural radioactivity around the Manyoni uranium deposit (Tanzania): selection of sampling points. Menemui Matematik, v. 44, p. 97-108, 2022.
WHO - World Health Organisation. Air quality guidelines: global update 2005: particulate matter, ozone, nitrogen dioxide and sulfur dioxide. Copenhagen: WHO Regional Office for Europe, 2006.
GEOLOGICAL SURVEY OF TANZANIA. Geological and Mineral Information System. n.d. Available at: <https://www.gmis-tanzania.com/>. Last accessed: 29 March 2023.
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