基于闪烁室法对高校环境中放射性氡的研究——以大连市为例

依托FD216测氡仪,基于闪烁室法对六所大连市高校和科研院所环境中放射性氡进行了取样测定,并将测量结果与环境中放射性氡的标准进行比较。研究表明,在本研究中所选取的采样环境中放射性氡的含量因选取地点的不同而有一定差异,但总体上均未出现超标的现象,说明所调查研究区域内的放射性氡含量正常,即学校和科研院所中各个区域的放射性皆不会对老师和学生的学习和生活产生不良影响。     

南京市地铁车站氡浓度水平的初步调查

采用静电收集氡子体法对南京市地铁车站环境中氡浓度进行了调查,初步掌握了南京市地铁站重点区域的氡浓度放射性水平,按照联合国原子辐射效应科学委员会推荐的评价方法估算氡浓度对地铁内工作人员人均年有效照射剂量。对地铁站新建和扩建项目的机械通风设计,为工作人员和公众的内照射剂量水平估算等提供依据。     

重庆市主城区室内氡浓度调查与评价

根据重庆市城市组团式建设特点,采用径迹法对重庆市主城建成区开展室内氡浓度调查。结果表明,各区县室内氡浓度整体水平较低,重庆市主城区室内氡浓度平均值为64.5 Bq/m3,168个采样点均小于国家标准200 Bq/m3;吸入氡及子体对人员产生的年均有效剂量均低于《住房内氡浓度控制标准》和《地下建筑氡及其子体控制标准规定》中规定的室内氡浓度行动水平。     

贵阳室内氡时空分布特征研究

为了全面分析室内氡的时空分布特征、来源和影响因素,选择了贵阳市不同地理位置的居民住宅、办公场所和公共场所,进行了为期一年的室内氡监测。贵阳市室内氡的平均浓度为(72.7±1.6)Bq/m3,低于室内空气污染国家标准,达标率98.5%。其中居民住宅、办公场所和公共场所的室内氡浓度分别为(93.46±86.93)、(74.68±40.74)、(61±26.93)Bq/m3。研究表明,室内涂料、装修程度和通风效果、小区环境等对室内氡浓度高低有显著影响,室内氡也随季节变化而发生波动。对于居民住宅和公共场所氡的室内外来源相对重要性不同。居民住宅内新楼和旧楼不同楼层室内氡的来源、影响因素和分布特征有显著差异。     

美国科学家研制出测定水中氡浓度的新仪器

居民供水中的氡是室内空气中氡污染的主要来源。据测定,高供水中氡浓度为一万微微居里/升时,室内空气中的氡浓度可增加一微微居里/升。研究表明,当室内空气中氡浓度为4微微居里/升时,人罹患肺癌的相对危险比率为1%;当饮用水中氡浓度为二万微微居里时,人患胃癌的相对危险比率为0.2％。最近美国国家标准局研究成功了一种测定水中氡     

某铀矿山废石场及尾砂库氡污染调查

通过对某退役铀矿山的 14个废石堆放场及 3个尾砂库氡析出率的测量及内照射剂量的估算 ,表明 ,只有一个废石场的氡析出率超过国家规定的管理限值水平 ;尾砂库的氡析出率较高 ,个别测点的氡析出率超出管理限值水平近 7倍 ;因氡析出而使当地居民额外所受的年最大有效剂量当量为 0 0 5 8mSv。指出在尾砂库表面覆盖黄土 ,可以有效降低氡析出水平 ,当覆盖厚度达 0 5m时 ,可将氡析出水平降低 84%以上。     

提高土壤氡浓度测定效率的方法

采用测量α粒子能量的方法来确定氡及其子体的浓度,找出测量规律及提高测量效率的方法.通过实验建立了提高土壤中氡浓度的测量效率的模型.     

新疆城市放射性废物库环境放射性调查

本文分析了新疆城市放射性废物库2012—2016年的γ剂量率、中子剂量率、表面沾污、氡浓度、土壤中放射性核素比活度以及地表水核素含量变化情况。监测结果表明:新疆城市放射性废物库库区内新库、老暂存库以及库外周围γ辐射剂量率和中子剂量率均处于乌鲁木齐市正常本底水平,表面沾污和氡浓度均未见异常,库区周围环境地表水白鸟湖总α、总β放射性浓度均低于《生活饮用水卫生标准》,土壤中γ核素均在乌鲁木齐市环境土壤天然放射性水平范围中。通过废物库的监测,对掌握新疆城市放射性废物库周边放射性水平,开展环境辐射评价提供了科学依据。     

哈密地区环境中氡及其子体浓度所致居民剂量评价

用双滤膜法和Ｔｈｏｍａｓ三段法测定了哈密地区环境空气中氡及其子体浓度．结果表明，室内氡及其子体浓度平均值分别为２８．ＯＢｑ·ｍ－３和７．５×１０－８Ｊ·ｍ－３，室外氡及其子体浓度平均值分别为１０．７Ｂｑ·ｍ－３和３．１×１０－３Ｊ·ｍ－３．氡及其子体所致居民人均有效剂量当量为１．０３ｍＳｖ·ａ－１，集体有效剂量当量为４．２×１０２ｍａｎ·Ｓｖ．     

某铀矿山辐射环境历史演化

调查了某铀矿山居民区环境空气中氡及其子体浓度、空气吸收剂量率和水中放射性核素含量。在已有资料的基础上，对历史时期的辐射环境进行分析。结合实地监测数据，对辐射剂量估算，评价该矿山辐射环境的现状。结果表明，该矿山排放的放射性物质确实对当地的居民产生了一定影响，在所调查的时间段内，该矿山评价区域由放射性物质排放所致关键子区居民的最大年有效剂量为0.52mSv；无论是历史时期还是现状，其关键核素都是^222Rn。指出，为了进一步降低放射性物质对环境的影响，首先应考虑减少^222Rn的排放。     

Soil gas radon analysis in some areas of Northern Punjab, India

The radon concentration levels in soil samples from 39 locations of Northern Punjab are measured using AlphaGUARD (PQ 2000 PRO Model) of Genitron instruments, Germany. The radon concentration in soil varies from 0.3 to 35.8 kBq/l. The minimum value of radon is observed in Talwandi Choudhrian and is maximum for Nushera Dhala. The soil gas radon is correlated with soil temperature, pressure, and humidity to observe the effect of these parameters on radon release. The soil gas radon values in the study area are compared with that obtained in groundwater. The results are also compared with the available radon data for other parts of Punjab and Himachal Pradesh.     

Mapping Soil Gas Radon Concentration: A Comparative Study of Geostatistical Methods

Understanding soil gas radon spatial variations can allow the constructor of a new house to prevent radon gas flowing from the ground. Indoor radon concentration distribution depends on many parameters and it is difficult to use its spatial variation to assess radon potential. Many scientists use to measure outdoor soil gas radon concentrations to assess the radon potential. Geostatistical methods provide us a valuable tool to study spatial structure of radon concentration and mapping. To explore the structure of soil gas radon concentration within an area in south Italy and choice a kriging algorithm, we compared the prediction performances of four different kriging algorithms: ordinary kriging, lognormal kriging, ordinary multi-Gaussian kriging, and ordinary indicator cokriging. Their results were compared using an independent validation data set. The comparison of predictions was based on three measures of accuracy: (1) the mean absolute error, (2) the mean-squared error of prediction; (3) the mean relative error, and a measure of effectiveness: the goodness-of-prediction estimate. The results obtained in this case study showed that the multi-Gaussian kriging was the most accurate approach among those considered. Comparing radon anomalies with lithology and fault locations, no evidence of a strict correlation between type of outcropping terrain and radon anomalies was found, except in the western sector where there were granitic and gneissic terrain. Moreover, there was a clear correlation between radon anomalies and fault systems.     

Atmospheric dispersion of radon gas and its decay products under stable conditions in arid regions of Australia

The radon and radon daughter concentration-in-air from natural background are assessed along with the micrometeorology and synoptic weather systems in an arid region of Australia. The radon daughter contribution to population dose is biased towards the frequency of nocturnal inversions. Classical atmospheric models are not applicable during stable atmospheric conditions in inland Australia. An atmospheric Box Model is used along with measured data from tethersonde profiles in predicting radon/radon daughter concentration-in-air. Predicted and measured concentrations are compared for spatial and temporal variations.     

Indoor radon measurement and effective dose assessment of 150 apartments in Mashhad,Iran

Environmental monitoring and indoor radon measurement are important for public health, to estimate the cancer risk of respiratory system and, if necessary, to suggest proper methods that reduce indoor radon level. In this research, indoor radon concentration in the air has been measured in 150 apartments in Mashhad city. The result demonstrates about 94.7% of apartments have radon concentration less than 100 Bq/m³, taken by WHO as the action level, and 5.3% have the concentration higher than this level. As well as, annual radon dose has been assessed using the equation for annual effective dose calculation introduced by United Nations Scientific Committee on the Effects of Atomic Radiation.     

Estimation of uranium and radon concentration in some drinking water samples of Upper Siwaliks, India

Uranium and radon concentration was assessed in water samples taken from hand pumps, natural sources and wells collected from some areas of Upper Siwaliks, Northern India. Fission track registration technique was used to estimate the uranium content of water samples. The uranium concentration in water samples was found to vary from 1.08 +/- 0.03 to 19.68 +/- 0.12 microg l(-1). These values were compared with safe limit values recommended for drinking water. Most of the water samples were found to have uranium concentration below the safe limit of 15 microg l(-1) (WHO, World Health Organization, Guidelines for drinking-water quality (3rd ed.). Geneva, Switzerland: WHO, 2004). The radon estimation in these water samples was made using alpha-scintillometry to study its correlation with uranium. The radon concentration in these samples was found to vary from 0.87 +/- 0.29 to 32.10 +/- 1.79 Bq l(-1). The recorded values of radon concentration were within the recommended safe limit of 4 to 40 Bq l(-1) (UNSCEAR, United Nations Scientific Committee on the Effects of Atomic Radiations, Sources and effects of ionizing radiation. New York: United Nations, 1993). No direct correlation was found between uranium concentration and radon concentration in water samples belonging to Upper Siwaliks. The values of uranium and radon concentration in water were compared with that from the adjoining areas of Punjab state, India.     

Impacts and mitigation measures of plastic waste: A critical review

Overwhelmed plastic waste has been gradually appreciated as a global problematic issue. Scientific efforts either dedicated to comprehending its distribution and detrimental impacts on the environment or management measures to contain it. However, there is a concern asymmetry between the knowledge of detrimental impacts of plastic waste and corresponding mitigation measures. Microplastics in the marine ecosystem is the foremost research hotspot in terms of plastic waste's detrimental impacts. Recycling plastic waste is the utmost research topic in terms of plastic waste management. Plastic pollutants derived from plastic waste contaminates the environment and ultimately threatens human health. Current measures aimed at reducing the plastic waste ended in the environment via recycling, and emphasised its retention of material value via circular economy. However, these measures did not prioritise taking direct action to mitigate the threats to human health. This review aims to bridge these two research ends of plastic waste that provides a holistic view of this problematic issue.The keywords analysis function in VOSviewer is adopted in this study to map out the state-of-the-art of existing research in plastic waste. Four research mainstreams are highlighted: (1) Environmental concerns of plastic waste in aquatic ecosystems; (2) Potential threats to human health; (3) Plastic waste reduction options and recycling methods; (4) Plastic waste thermochemical treatment. Consequently, a future research agenda is proposed.     

Measuring radon exhalation rate in two cycles avoiding the effects of back-diffusion and chamber leakage

This paper will present a simple method for measuring the radon exhalation rate from the medium surface in two cycles and also avoiding the effects of back-diffusion and chamber leakage. The method is based on a combination of the “accumulation chamber” technique and a radon monitor. The radon monitor performs the measurement of the radon concentration inside the accumulation chamber, and then the radon exhalation rate can be obtained by simple calculation. For reducing the systematic error and the statistical uncertainty, too short of total measurement time is not appropriate, and the first cycle time should be about 70 % of the total measurement. The radon exhalation rate from the medium surface obtained through this method is in good agreement with the reference value. This simple method can be applied to develop and improve the instruments for measuring radon exhalation rate.     

Radon, helium and uranium survey in some thermal springs located in NW Himalayas, India: mobilization by tectonic features or by geochemical barriers?

Radon, helium and uranium measurements have been carried out in hot water springs in the Parbati and Beas valleys of Himachal Himalaya. Most of these hot springs are known as famous pilgrimage centers. The activity of dissolved radon in the liquid phase is found to vary widely, by an order of magnitude, between 10 and 750 Bq L(-1), whereas, the dissolved helium content in these thermal springs varies between 10 and 100 ppm. The uranium contents are low and vary from <0.01 to 5 microg L(-1). The measured values of radon, helium and uranium are possibly controlled by structural geology, namely the presence of pervious fault systems, and by the lithology of the leached host rocks. Redox-potential geochemical barriers cause the mobilization of uranile ions in solution (UO2+); the most plausible hypothesis is when the conditions are oxidising, confirming the importance of physico-chemical conditions up to the supergenic environment, to control the fluid geochemistry of the U-He-222Rn system. Some evidence is available from both geothermometric considerations and geochemical data which will be reported elsewhere, whereas the present study is focused on U decay series-noble gas geochemistry. The first analysis of collected 3He/4He data is consistent with a crustal signature at the studied thermal springs.