乌克兰地盾岩石圈西部铀矿田地球动力学研究

V. Verkhovsev, N. Semenyuk, O. Vaylo, A. Ganevich, D. Zadorozhnyi, S. Meshcheriakov
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引用次数: 0

摘要

乌克兰地盾的英古尔大锁含有许多钠铀地层的内源性矿床,这些矿床已经开发了55-60多年。除了基罗沃格勒铀矿区(其矿床受同名断裂带中的不连续面控制)外,瓦图金斯克和诺沃科斯坦季尼夫斯克矿田位于Novoukrainsky花岗岩-片麻岩穹窿内,靠近较晚的地质构造地层korson - novmyrgorod岩体。注意到内源铀矿床在英古尔巨型岩块中的高度饱和,强调它们还含有增加的钍矿物,并与铀结合产生上升的氡气流。因此,研究岩石圈上层的动力学和与之密切相关的水圈(地下和地表)以及气圈的动力学,在铀矿田地区和采矿企业邻近地区都特别重要。除了对铀矿企业放射性生态状况的直接影响外,还应特别注意研究岩石圈表面的动力学,包括断块结构和破裂的运动学,它们影响地下水的扩散,从而影响环境中被铀污染的地表水。在铀矿田地区,分离体的运动特征有助于更准确地预测天然弱绝缘地下减压结构中的氡积累,以及其衰变产物Po、Bi和Pb随着生物物体从生物体中移除的较长时间的积累。强调在矿山企业的矿山作业中,由于硝酸盐基炸药的使用,工艺过程中伴随着地下水的硝酸盐污染。因此,对于矿山企业工业场地和邻近地区的环境辐射和硝酸盐污染的预测评价,其技术过程也会影响瓦图金斯克和新科斯坦尼夫斯克铀矿田的岩石-水力和天然气圈的动态,以及构造地质、古地貌、岩性、水文地质、水文地质和地形特征。地下水前缘从铀矿直接向最近的排水渠推进的方向已经确定。新科斯坦尼夫斯克铀矿田的地表水和地下(井)水的铀污染水平已经确定,这是未来几十年最有希望增加铀矿开采的地方。建议对新科斯坦尼夫斯克铀矿田进行复杂的放射生态监测的地区和条件,以便采取预防措施,防止现有的当地休闲区和水域进入生态危险的类别。Novokostiantynivske铀矿的例子,在乌克兰最富有的内生矿床之一,通过生产井,这是计划上升到表面的铀矿的相同类型的存款铀矿领域相同的名称(Lisne Litniy和Dokuchaivske)运输主要漂移,提出最优的复杂系统的地球动力学的研究无线电和一般生态监测的环境状况的领土。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
GEODYNAMICS OF URANIUM ORE FIELDS IN THE WESTERN PART OF THE INHUL MEGABLOK OF THE UKRAINIAN SHIELD
The Ingul megablock of the Ukrainian Shield contains a number of endogenous deposits of the sodium-uranium formation, which have been developed for more than 55-60 years. With the exception of the Kirovograd uranium ore region, the deposits of which are controlled by discontinuities in the fault zone of the same name, the Vatutinske and Novokostiantynivske ore fields occupy positions within the Novoukrainsky granite-gneiss dome and in close proximity to the later geostructural formation, the Korsun-Novomyrgorod pluton. Paying attention to the high degree of saturation of the Ingul megablock with endogenous uranium deposits, it is emphasized that they also contain an increased content of thorium minerals and, in combination with uranium, they produce ascending gas flows of radon. Therefore, studies of the dynamics of the upper horizons of the lithosphere and the closely related dynamics of the hydrosphere (underground and surface), as well as the gas sphere, are especially relevant both in the regions of uranium ore fields and in areas adjacent to mining enterprises. Beyond the direct influence on the radioecological situation of uranium mining enterprises, special attention should be paid to the study of the dynamics of the lithospheric surface, including fault-block structures and the kinematics of ruptures, affecting the spread of groundwater and, as a result, surface waters contaminated with uranium in the environment. In the areas of uranium ore fields, the kinematic characteristics of disjunctivals contribute to a more correct forecast of radon accumulation in natural weakly insulated underground decompressed structures and the accumulation of more long-lived products of its decay Po, Bi, and Pb with long periods of removal of biological objects from organisms. It is emphasized that in the mine workings of mining enterprises, the technological process is accompanied by nitrate pollution of groundwater due to the use of nitrate-based explosives. Thus, for the predictive assessment of radiation and nitrate pollution of the environment of industrial sites of mining enterprises and adjacent territories, the technological process of which also affects the dynamics of the litho-hydro- and gas sphere, the structural-geological, paleogeomorphological, lithological, hydrogeological, hydrographic and topographic features of the Vatutinske and Novokostiantynivske uranium ore fields. The directions of the advancement of the groundwater fronts from directly uranium mines to the nearest drains have been established. The levels of uranium pollution of surface and underground (well) waters within the Novokostiantynivske uranium ore field, as the most promising for increasing uranium mining in the coming decades, have been determined. The proposed areas and terms of complex radioecological monitoring of the Novokostiantynivske uranium ore field in order to take preventive measures to prevent the withdrawal of existing local recreational areas and water areas into the category of ecologically hazardous. On the example of the Novokostiantynivske uranium deposit, as one of the richest endogenous deposits in Ukraine, through the production shafts, which is planned to rise to the surface of uranium ore from the same type of deposits of the uranium ore field of the same name (Lisne, Litniy and Dokuchaivske) by transporting it by main drifts, the proposed optimal complex of geodynamic studies in the system of radio and general ecological monitoring of the state of the environment of such territories.
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