Pjsc“Priargunskiy矿业与化工生产协会”投产6号矿周边辐射情况

Q4 Medicine
N.K. Shandala, I.V. Gushchina, A.V. Titov, I.S. Belskikh, V.А. Seregin, T.A. Doroneva, D.V. Isaev, V.G. Starinskiy, A.A. Shitova
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引用次数: 0

摘要

目的:研究以E.P. Slavskiy命名的PJSC“Priargunsky Industrial Mining and Chemical Association”6号矿投产前的放射性生态状况。材料和方法:在辐射调查中,使用便携式光谱测量仪MKS-01A ' Multirad-M '(俄罗斯)和剂量辐射计MKS-AT6101s(白俄罗斯),采用行人伽马测量法测量环境剂量当量率。为了研究土壤中放射性核素的比活度,按照GOST 17.4.3.01-2017的规定取样。发射放射性核素的活度是在堪培拉(美国)制造的固定式伽马能谱仪上测量的。从样品中提取210Po和210Pb后,在俄罗斯UMF-2000辐射系统上测定了它们的活度。根据ICRP第136号出版物中建立的剂量系数,考虑到R52.18.820-2015建议,对生物物体的暴露进行剂量评估。结果:研究结果表明,伽马辐射的环境剂量当量率在0.1 ~ 4.9µSv/h范围内变化较大。背景区的平均值为0.14±0.02µSv/h。除40K外,在某些地区,岩石堆外天然放射性核素的比活度超过背景值高达10倍。所考虑的陆地生物对象(草、灌木、土壤蠕虫和类鼠啮齿动物)的生态风险不超过10-2。结论:境内存在人为活动痕迹,造成人为辐射污染。相当于伽马辐射的最高水平的环境剂量发生在岩石堆附近。其余地区有局部地区受到放射性污染。接触生物物体的剂量对陆地生物物体的发病率、繁殖和预期寿命没有显著影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Radiation Situation Around Commissioning Mine No. 6 of Pjsc ‘Priargunskiy Mining and Chemical Production Association’
Purpose: Study of the radioecological situation around mine No. 6 of PJSC ‘Priargunsky Industrial Mining and Chemical Association’ named after E.P. Slavskiy" before commissioning. Material and Methods: During the radiation survey, to measure the ambient dose equivalent rate, the pedestrian gamma survey method was used using the portable spectrometric complex MKS-01A ‘Multirad-M’ (Russia) and the dosimeter-radiometer MKS-AT6101s (Belarus). To study the specific activity of radionuclides in the soil, samples were taken in accordance with GOST 17.4.3.01-2017. The activity of gamma-emitting radionuclides was measured on a stationary gamma spectrometer manufactured by Canberra (USA). The activity of 210Po and 210Pb was measured on the radiometric system UMF-2000 (Russia) after their radiochemical extraction from samples. Dose assessment of exposure to biological objects was made using dose coefficients established in ICRP Publication 136, considering recommendations R52.18.820-2015. Results: The results of the study showed that the ambient dose equivalent rate of gamma radiation varied in a wide range from 0.1 to 4.9 µSv/h. The average value in the background areas is 0.14±0.02 µSv/h. The specific activity of natural radionuclides outside the rock dumps, except for 40K, in some areas exceeds the background values up to 10 times. The ecological risk for the considered terrestrial biological objects (grass, shrub, soil worm and mouse-like rodents) does not exceed 10‒2. Conclusion: There are areas on the territory with traces of anthropogenic activity, which led to man-made radiation contamination. The highest levels of ambient dose equivalent of gamma radiation occur near rock dumps. The rest of the territory has local areas with radioactive contamination. Doses of exposure to biological objects don’t have a significant effect on the incidence, reproduction, and life expectancy of terrestrial biological objects.
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来源期刊
Medical Radiology and Radiation Safety
Medical Radiology and Radiation Safety Medicine-Radiology, Nuclear Medicine and Imaging
CiteScore
0.40
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72
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