Radioactive Concentrations in Chemical Fertilizers

IF 0.6 Q4 NUCLEAR SCIENCE & TECHNOLOGY
Gwang-Ho Kim, Jae-Hwan Cho
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Abstract

Background: The aim of the present study was to determine radioactive concentrations in fertilizers known to contain essential nutrients. Results of this study could be used as basic data to monitor the impact of chemical fertilizers on the environment and public health. Nitrogen fertilizers, calcium fertilizers, sulfur fertilizers, phosphate acid fertilizers, and potassium chloride fertilizers were used in this study.Materials and Methods: Five chemical fertilizers were pulverized, placed in polyethylene containers, and weighed. The time to measure each specimen was set to be 3,600 seconds for a scintillator-based gamma-ray spectroscopy system. Concentration of gamma radionuclide was analyzed based on obtained spectra. At the end of the measurement, the spectrum file was stored and used to calculate radioactive concentrations using a gamma-ray spectrometer software.Results and Discussion: In the nitrogen fertilizer, 3.49 ± 5.71 Bq/kg of 137Cs, 34.43 ± 7.61 Bq/kg of 134Cs, and 569.16 ± 91.15 of 40K were detected whereas 131I was not detected. In the calcium fertilizer, 5.74 ± 4.40 Bq/kg of 137Cs (the highest concentration among all fertilizers), 22.37 ± 5.39 Bq/kg of 134Cs, and 433.67 ± 64.24 Bq/kg of 40K were detected whereas 131I was not detected. In the sulfur fertilizer, 347.31 ± 55.73 Bq/kg of 40K, 19.42 ± 4.53 Bq/kg of 134Cs, 2.21 ± 3.49 of 137Cs, and 0.04 ± 0.22 Bq/Kg of 131I were detected. In the phosphoric acid fertilizer, 70,007.34 ± 844.18 Bq/kg of 40K (the highest concentration among all fertilizers) and 46.07 ± 70.40 Bq/kg of 134Cs were detected whereas neither 137Cs nor 131I was detected. In the potassium chloride fertilizer, 12,827.92 ± 1542.19 Bq/kg of 40K was and 94.76 ± 128.79 Bq/kg of 134Cs were detected whereas neither 137Cs nor 131I was detected. The present study examined inorganic fertilizers produced by a single manufacturer. There might be different results according to the country and area from which fertilizers are imported. Further studies about inorganic fertilizers in more detail are needed to create measures to reduce 40K.Conclusion: Measures are needed to reduce radiation exposure to 40K contained in fertilizers including phosphoric acid and potassium chloride fertilizers.
化学肥料中的放射性浓度
背景:本研究的目的是确定已知含有必需营养素的肥料中的放射性浓度。本研究结果可作为监测化肥对环境和公众健康影响的基础数据。施用氮肥、钙肥、硫肥、磷酸肥和氯化钾肥。材料和方法:将五种化学肥料粉碎,放入聚乙烯容器中称重。对于一个基于闪烁体的伽马射线光谱系统来说,测量每个样本的时间被设定为3600秒。根据获得的光谱分析了放射性核素的浓度。在测量结束时,将光谱文件存储起来,并使用伽马射线光谱仪软件计算放射性浓度。结果与讨论:氮肥中137Cs含量为3.49±5.71 Bq/kg, 134Cs含量为34.43±7.61 Bq/kg, 40K含量为569.16±91.15 Bq/kg,而131I未检出。在钙肥中,137Cs含量为5.74±4.40 Bq/kg(在所有肥料中最高),134Cs含量为22.37±5.39 Bq/kg, 40K含量为433.67±64.24 Bq/kg,而131I未被检测到。硫肥中40K、134Cs、137Cs和131I的检测值分别为347.31±55.73 Bq/kg、19.42±4.53 Bq/kg、2.21±3.49 Bq/kg和0.04±0.22 Bq/kg。在磷酸肥中,40K和134Cs的浓度分别为70,007.34±844.18 Bq/kg(在所有肥料中最高)和46.07±70.40 Bq/kg,而137Cs和131I均未检测到。在氯化钾肥料中,40K为12827.92±1542.19 Bq/kg, 134Cs为94.76±128.79 Bq/kg,而137Cs和131I均未检测到。本研究考察了由单一制造商生产的无机肥料。根据进口肥料的国家和地区,可能会有不同的结果。需要对无机肥料进行更详细的研究,以制定减少40K的措施。结论:需要采取措施减少磷、氯化钾等肥料中40K的辐射暴露。
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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来源期刊
Journal of Radiation Protection and Research
Journal of Radiation Protection and Research Physics and Astronomy-Radiation
CiteScore
1.00
自引率
0.00%
发文量
6
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