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本文采用欧盟ERICA框架下评估电离辐射生态风险的ERICA综合法,选用ERICA工具数据库中的参数数据,计算了我国大亚湾等核电站液态放射性流出物中主要的18种放射性核素的环境安全浓度限值。当核电站排水口附近海域中放射性核素浓度低于推荐的环境安全浓度限值时,放射性核素造成的辐射风险被认为是在海洋生态环境所能承受的范围之内。 相似文献
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AbstractSediment yields from and sediment transfer within catchments of very low relief and gradient, which make up about 50% of Earth’s surface, are poorly documented and their internal sediment dynamics are poorly known. Sediment sources, their proportionate contributions to valley floors and sediment yield, and storage are estimated using fallout radionuclides 210Pb(ex) and 137Cs in the catchments that drain into Darwin Harbour, northern Australia, an example of this understudied catchment type that appears to be globally at the extreme end of this category of catchments. Unchannelled grassy valley floors (dambos, or seasonal wetlands) trap ~90% of the sediment delivered from hillslopes by sheet and rill erosion. Further down valley, small channels transport ~10% of the sediment that escapes from the dambos, and the remaining sediment comes from erosion of the channels. In this case, the fractional sediment storage is very high as a result of the existence of dambos, a landform that depends for its existence on low gradients. 相似文献
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某矿山天然放射性核素的调查 总被引:1,自引:0,他引:1
对某矿山工作场所和生活区分别进行了样品采集,并使用ORTEC公司生产的16000道HPGeγ能谱仪进行了测量。结果表明,该矿山工作场所天然放射性核素的比活度大多高于生活区,其中危害最大的为尾矿坝;某些生活区天然放射性核素的比活度比对照点和国家均值要高,但多数都在国家均值范围内,最高值出现在3号生活区的农田土样中,其天然放射性核素的比活度分别为:α(226^Ra)——750.4Bq/kg、α(232^Th)——91.5Bq/kg、α(40^K)——1202Bq/kg。 相似文献
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An avenue to integrate theoretical, experimental and field research methods to forecast water quality in water bodies for different scenarios of water management is proposed. Exploration of the laws of organization, stability and controllability of laboratory "ideal" water microbial communities (model ecosystems) is the basis to build the following biophysical research chain:to formalize with primary field information a conceptual block-diagram of a water ecosystem →to real chemical and other density-dependent and population-growth-controlling factors → to find our limiting factors for natural ecosystems → to conduct experiments with isolated chemical factors and hydrobionts to derive kinetic dependencies and quantitative parameters→ to transfer regularities of operation and kinetic dependencies to the natural ecosystem→ retrospective verification of the model on the base of available field and derived theoretical-experimental data →prognostic calculations for the scenario. Efficiency of the approach is demonstrated in microalgal "blooming" models for Krasnoyarsk and Kantat reservoirs and in prognostication of radioecological state of great Yenisei river:1) radionuclide distribution in the Yenisei''s bottom sediment is nonuniform-"spotty"; 2) it is theoretically shown, that due to biological interactions and tro-phical radioniclide migration there is "spotive" type of space radionuclide distribution. The research is to make use of the novel methods of ecological biophysics:Monitoring:spectral analysis of surface waters (algal pigments), fluorescent techniques to evaluate productivity and condition of algae; rapid bioassays for water toxicity (bioluminescence, chemotaxis techniques). Kinetic experiments:microcosms on evaluating self-purification rates; special cultivators to evaluate the rates of growth of hydrobionts and radioactive engulfing, nutrition spectra; methods of finding growth limiting factors. Models:application of Bellman Principle to optimizing the river water use; theory and peculiarities of microbiological decomposition of pollutants in the river ecosystem. The composition of Prognostication Simulation Model is the next:1) hydrodynamical unit to calculate 2-dimensional space-time rate of stream on any depth; 2) hydrophysical unit to calculate:water temperature and level of solar radiation inside the water body; 3) ecosystem unit to calculate dynamic of concentration of phytoplankton, zooplankton, bacteria, major chemical matters and pollutants in water, content pollutants inside of hydrobionfs cells and dynamic of bentos; 4) radioe-cological unit to forecast the dynamic of radionuclides in the water body and bottom, their hydro-bont''s concentration; 5) database. Reservoirs and river models are provided by monitoring and kinetic experiments data. 相似文献
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INTRODUCTIONWiththedevelopmentofcoastalnuclearpowerandmarinenuclearestablishments,peoplepaymoreandmoreattentiontothedistribution ,behaviorandpathwaysofsomeman maderadionuclidesinmarineenvironment.Thedischargedartificialradionuclidesoverlieabackgroundofnaturallyoccurringradionu clideswhicheitheralreadyexistedinmarineenvironmentorwasenhancedbysomeotherhumanactivi ties.Goodunderstandingofsomeman incurredradionuclides’impactsonpeopleandmarineorganismsrequiresknowledgeofsomecriticalnaturalradi… 相似文献
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为了定量计算陵区近海核电站排水管线泄漏情景下核素通过地下水途径向海洋环境的释放通量,以某近海核电站为例进行研究。首先,应用GOCAD软件建立三维地形地质模型,刻画地层的分布、剥蚀以及倾向等特点;然后,运用地下水数值模拟软件FEFLOW精细刻画丘陵区地下水系统的补给、径流和排泄特征;最后,以不被吸附滞留的核素3H和被吸附滞留的核素90Sr、137Cs为对象,通过实验测定了90Sr、137Cs在不同岩土介质中的分配系数,模拟计算了排水管线连续渗漏60 a后3H、90Sr、137Cs在地下水中的放射性分布及释放。结果表明:3H迁移速度基本与地下水流速一致,地下水中的最大放射性浓度为0.285 0 Bq/L,第20 000天时向收纳水域的释放通量达到最大值,约526 Bq/d;90Sr吸附性能相对较弱,最大迁移距离约80 m,地下水中的最大放射性浓度为0.032 1 Bq/L;137Cs吸附能力较强,相当长的时间内被滞留在管线附近,地下水中最大放射性浓度分别为6.840×10-3 Bq/L,释放通量为0 Bq/d。由弥散度的不确定分析可知,弥散度越大,地下水中3H的最大放射性浓度越小,向海洋环境的释放通量越多。 相似文献