Soil radon exhalation rate measurement in Duhok city by two techniques

IF 0.9 4区 工程技术 Q3 NUCLEAR SCIENCE & TECHNOLOGY Nuclear Technology & Radiation Protection Pub Date : 2022-01-01 DOI:10.2298/ntrp2203229a
W. Alhamdi, M. Abdullah
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Abstract

Radon exhalation rate is the rate of radioactive radon gas that escapes from the soil into the atmosphere. In this study exhalation rate of radon was measured for 33 samples of soil, in four districts of Duhok province, using two different techniques: one using radon concentration and other using radium content, by both alpha and gamma spectroscopy. For the radon measurement, alpha-sensitive RAD7 detector was used. While in the second method, radon exhalation rate was expressed as a function of radium concentration, measured by well type NaI (Tl) detector and other soil parameters. Analysis, shows that the average of radon exhalation rate, by the first technique, varies from 14.6 ? 3.2 to 55.7 ? 1.6 Bqm-2h-1, while by the second technique, it varies from 13.3 ? 2.4 to 50.6 ? 4.1 Bqm-2h-1. Overall, the measured values, for both methods at all the sample points, present a good correlation and less than global mean average recommendation.
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两种技术测定杜鹤市土壤氡析出率
氡呼出率是指放射性氡气从土壤中逸入大气的速率。在这项研究中,使用两种不同的技术测量了杜胡克省四个地区33个土壤样本的氡呼出率:一种是用氡浓度,另一种是用镭含量,采用α和γ光谱法。氡测量采用灵敏的RAD7探测器。而在第二种方法中,氡呼出率表示为镭浓度的函数,由井型NaI (Tl)检测器和其他土壤参数测量。分析表明,采用第一种技术,氡的平均呼出率在14.6 ?3.2到55.7 ?1.6 Bqm-2h-1,而通过第二种技术,它从13.3 ?2.4到50.6 ?4.1 Bqm-2h-1。总的来说,两种方法在所有样本点上的测量值都呈现出良好的相关性,并且小于全局平均推荐值。
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来源期刊
Nuclear Technology & Radiation Protection
Nuclear Technology & Radiation Protection NUCLEAR SCIENCE & TECHNOLOGY-
CiteScore
2.00
自引率
41.70%
发文量
10
审稿时长
6-12 weeks
期刊介绍: Nuclear Technology & Radiation Protection is an international scientific journal covering the wide range of disciplines involved in nuclear science and technology as well as in the field of radiation protection. The journal is open for scientific papers, short papers, review articles, and technical papers dealing with nuclear power, research reactors, accelerators, nuclear materials, waste management, radiation measurements, and environmental problems. However, basic reactor physics and design, particle and radiation transport theory, and development of numerical methods and codes will also be important aspects of the editorial policy.
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