Study and Simulated the Natural Radioactivity (NORM) U-238, Th-232 and K-40 of Igneous and Sedimentary Rocks of Al-Atawilah (Al-Baha) in Saudi Arabia

Bashayer M. Al-Zahrani, H. Alqannas, Safia Hamidalddin
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引用次数: 2

Abstract

In this work, gamma-ray spectroscopy based on semiconductor hyper pure germanium (HPGe) detector was used to evaluate the activity concentrations of the natural radionuclides (U-238 (Ra-226), Th-232 and K-40) and the fallout nuclide (Cs-137) for thirty samples of igneous and sedimentary rocks of Al-Atawilah (Al-Baha). The mean values of the activity concentrations of U-238 (Ra-226), Th-232, K-40 and Cs-137 in the igneous samples are found as (11.0, 11.50, 1172.71, 1.47) Bq/Kg respectively. In the sedimentary rocks, the mean values of the activity concentrations of the natural radionuclides (U-238 (Ra-226), Th-232 and K-40) and the fallout nuclide (Cs-137) equal to (12.04, 13.18, 1131.36, 1.60) Bq/Kg respectively. The averages of radiological hazards (Raeq, Hex and Iγ) were calculated and found to be within the UNSCEAR permissible limit values (370 Bq/kg for Raeq, and 1 for Hex and Iγ), except for a slight increase of average value of Iγ in the igneous rock samples (1.36). The results indicate that the dose rate values depend on the kind of rocks (high in some igneous rock samples, and most of sedimentary rock samples have low dose rate). The activities of naturalnuclides were predicted and simulated in T time using a written MATLAB R2020a script based on the average activity concentrations and respective half-lives of U-238 and Th-232 series, and K-40, this is to evaluate the future effects of natural radionuclides on the population and estimate the human inputs in the future.
沙特阿拉伯Al-Atawilah (Al-Baha)火成岩和沉积岩天然放射性(NORM) U-238、Th-232和K-40的研究与模拟
在这项工作中,基于半导体超纯锗(HPGe)探测器的伽马射线光谱法用于评估阿塔维拉(Al Baha)30个火成岩和沉积岩样品中天然放射性核素(U-238(Ra-226)、Th-232和K-40)和沉降核素(Cs-137)的活性浓度。火成岩样品中U-238(Ra-226)、Th-232、K-40和Cs-137的活性浓度平均值分别为(11.0、11.50、1172.71、1.47)Bq/Kg。在沉积岩中,天然放射性核素(U-238(Ra-226)、Th-232和K-40)和沉降核素(Cs-137)的活性浓度平均值分别等于(12.04、13.18、1131.36、1.60)Bq/Kg。计算了放射性危害的平均值(Raeq、Hex和Iγ),发现其在UNSCEAR允许的限值范围内(对于Raeq为370 Bq/kg,对于Hex和Iγ为1),除了火成岩样品中Iγ的平均值略有增加(1.36)外。结果表明,剂量率值取决于岩石的种类(一些火成岩样品的剂量率较高,而大多数沉积岩样本的剂量率较低)。基于U-238和Th-232系列以及K-40的平均活性浓度和各自的半衰期,使用MATLAB R2020a脚本在T时间内预测和模拟天然核素的活动,以评估天然放射性核素对人口的未来影响,并估计未来人类的投入。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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