A. S. Alaboodi, N. A. Kadhim, A. Abojassim, A. B. Hassan
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Results: The results show that the average of Radioactivity Concentration for Radium-232 were 1.84±0.39Bq/L, 2.31±0.43Bq/Land 7.15±1.88Bq/L, for Thorium-232 were 1.31±0.33Bq/L, 0.98±0.13Bq/Land 2.19±0.44Bq/L, for Potasium-40 were 9.07±1.32Bq/L, 22.29±2.93Bq/Land 40.89±8.93Bq/L and for Radon-222 were 35.5±0.00 mBq/L, 355.50±30.33 mBq/L and 712.00±97.20 mBq/L. Based on Gamma Radionuclides measurement, the mean annual effective doses of city water and river water are lower than the reference level of the effective dose recommended by the ICRP, while the mean annual effective doses of underground water were higher than the reference level of the effective dose recommended by the ICRP. Conclusion: Finally, the researcher found that all the radiological parameters such as Raeq, D, Hex, Hin and Iγ in the water samples were within the range the global limit, thus it’s safe to use in construction materials. Keyword: Natural radioactivity, radon concentrations, water, annual effective dose and Iraq. *Corresponding authors: Ali Abid Abojassim, PhD., E-mail: ali.alhameedawi@uokufa.edu.iq Revised: April 2019 Accepted: May 2019 Int. J. Radiat. Res., January 2020; 18(1): 1-11 ► Original article DOI: 10.18869/acadpub.ijrr.18.1.1 D ow nl oa de d fr om ij rr .c om a t 5 :3 0 + 04 30 o n S at ur da y A pr il 25 th 2 02 0 [ D O I: 10 .1 88 69 /a ca dp ub .ij rr .1 8. 1. 1 ]","PeriodicalId":14498,"journal":{"name":"Iranian Journal of Radiation Research","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2020-01-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"14","resultStr":"{\"title\":\"Radiological hazards due to natural radioactivity and radon concentrations in water samples at Al-Hurrah city, Iraq\",\"authors\":\"A. S. Alaboodi, N. A. Kadhim, A. Abojassim, A. B. 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Results: The results show that the average of Radioactivity Concentration for Radium-232 were 1.84±0.39Bq/L, 2.31±0.43Bq/Land 7.15±1.88Bq/L, for Thorium-232 were 1.31±0.33Bq/L, 0.98±0.13Bq/Land 2.19±0.44Bq/L, for Potasium-40 were 9.07±1.32Bq/L, 22.29±2.93Bq/Land 40.89±8.93Bq/L and for Radon-222 were 35.5±0.00 mBq/L, 355.50±30.33 mBq/L and 712.00±97.20 mBq/L. Based on Gamma Radionuclides measurement, the mean annual effective doses of city water and river water are lower than the reference level of the effective dose recommended by the ICRP, while the mean annual effective doses of underground water were higher than the reference level of the effective dose recommended by the ICRP. Conclusion: Finally, the researcher found that all the radiological parameters such as Raeq, D, Hex, Hin and Iγ in the water samples were within the range the global limit, thus it’s safe to use in construction materials. 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引用次数: 14
摘要
背景:本研究使用NaI(Tl)和RAD-7探测器对伊拉克纳杰夫省Al Hurrah市不同类型水样中的天然放射性(Ra U、Th、K和Rn)进行了研究。材料和方法:从城市饮用水、河水和地下水三种主要水源采集样本。人类在建筑材料中对这三种来源的每日消耗量决定了用于测量这些来源的放射性污染的标准,如年有效剂量、镭当量、吸收剂量率、外部危险指数、内部危险指数和长寿命放射性同位素的伽马射线放射性浓度指数。结果:镭-232的平均放射性浓度为1.84±0.39Bq/L,2.31±0.43Bq/Land 7.15±1.88Bq/L,钍-232为1.31±0.33Bq/L、0.98±0.13Bq/Lnd 2.19±0.44Bq/L,钾-40为9.07±1.32Bq/L、22.29±2.93Bq/Land 40.89±8.93Bq/L;氡-222为35.5±0.00mBq/L和355.50±30.33mBq/Ld 712.00±97.20mBq/L。根据γ-放射性核素的测量,城市水和河水的年平均有效剂量低于ICRP建议的有效剂量参考水平,而地下水的年均有效剂量高于ICRP推荐的有效剂量的参考水平。结论:最后,研究人员发现,水样中的Raeq、D、Hex、Hin和Iγ等放射性参数均在全球范围内,因此在建筑材料中使用是安全的。关键词:天然放射性,氡浓度,水,年有效剂量和伊拉克*通讯作者:Ali Abid Abojassim,博士。,电子邮件:ali.alhameedawi@uokufa.edu.iq修订:2019年4月接受:2019年5月国际辐射杂志。Res.,2020年1月;18(1):1-11► 原创文章DOI:10.18869/acadpub.ijr.18.1 D ow nl oa de D fr om ij rr.c om a t 5:3 0+04 30 o n S at ur da y a pr il 25 th 2 02 0[D o I:10.11 88 69/a ca dp ub.ij rr.1 8。1.1]
Radiological hazards due to natural radioactivity and radon concentrations in water samples at Al-Hurrah city, Iraq
Background: This research focuses on study of natural radioactivity (Ra U, Th, K and Rn) in different types of water samples at Al-Hurrah City in Najaf province/Iraq using NaI (Tl) and RAD-7 detector. Materials and Methods: Samples have been collected from three major sources of water, City Water (Drinking Water), River Water and Underground Water. The daily consumption of these three sources by humans in construction materials determines the standards used to measure the Radiological Contamination in these sources such as Annual Effective Dose, Radium Equivalent, Absorbed Dose rate, External Hazard Indexes, Internal Hazard Indexes and Activity Concentration Index Due to Gamma Ray of long-live Radioisotopes. Results: The results show that the average of Radioactivity Concentration for Radium-232 were 1.84±0.39Bq/L, 2.31±0.43Bq/Land 7.15±1.88Bq/L, for Thorium-232 were 1.31±0.33Bq/L, 0.98±0.13Bq/Land 2.19±0.44Bq/L, for Potasium-40 were 9.07±1.32Bq/L, 22.29±2.93Bq/Land 40.89±8.93Bq/L and for Radon-222 were 35.5±0.00 mBq/L, 355.50±30.33 mBq/L and 712.00±97.20 mBq/L. Based on Gamma Radionuclides measurement, the mean annual effective doses of city water and river water are lower than the reference level of the effective dose recommended by the ICRP, while the mean annual effective doses of underground water were higher than the reference level of the effective dose recommended by the ICRP. Conclusion: Finally, the researcher found that all the radiological parameters such as Raeq, D, Hex, Hin and Iγ in the water samples were within the range the global limit, thus it’s safe to use in construction materials. Keyword: Natural radioactivity, radon concentrations, water, annual effective dose and Iraq. *Corresponding authors: Ali Abid Abojassim, PhD., E-mail: ali.alhameedawi@uokufa.edu.iq Revised: April 2019 Accepted: May 2019 Int. J. Radiat. Res., January 2020; 18(1): 1-11 ► Original article DOI: 10.18869/acadpub.ijrr.18.1.1 D ow nl oa de d fr om ij rr .c om a t 5 :3 0 + 04 30 o n S at ur da y A pr il 25 th 2 02 0 [ D O I: 10 .1 88 69 /a ca dp ub .ij rr .1 8. 1. 1 ]
期刊介绍:
Iranian Journal of Radiation Research (IJRR) publishes original scientific research and clinical investigations related to radiation oncology, radiation biology, and Medical and health physics. The clinical studies submitted for publication include experimental studies of combined modality treatment, especially chemoradiotherapy approaches, and relevant innovations in hyperthermia, brachytherapy, high LET irradiation, nuclear medicine, dosimetry, tumor imaging, radiation treatment planning, radiosensitizers, and radioprotectors. All manuscripts must pass stringent peer-review and only papers that are rated of high scientific quality are accepted.
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