保加利亚Kozloduy核电站区域的地电研究

IF 0.6 Q4 GEOCHEMISTRY & GEOPHYSICS Geofizicheskiy Zhurnal-Geophysical Journal Pub Date : 2022-02-07 DOI:10.24028/gzh.v43i6.251549
I. Logvinov, G. Boyadzhiev, B. Srebrov, L. Rakhlin, G. Logvinova, S. Timoshin
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引用次数: 0

摘要

这项工作的任务是利用Kozloduy核电站(KNPP)地区大地电磁(MT)场的变化进行地电学研究,并将其结果与其他地质和地球物理知识相结合。本文给出了确定的大地电磁场解释参数。KNPP位于多瑙河右岸,离多瑙河很近。这一事实与电气化铁路的位置一起决定了MT场变化的独特观测点网络。在分析保加利亚地震目录和国际地震活动数据库的基础上,建立了核电站区域地震活动地图。在过去的50年里,在距离KNPP 40-80公里的地方记录了大约750次地震(主要在KNPP以南)。测量地点使用了两个大地电磁站GEOMAG-02,但记录电通道的设备仅供一个站使用(由于缺乏另一套非极化电极)。在21个点观测到MT场变化,这些点位于领土上,从东到西约30-35公里,从北到南约40-50公里。对于剖面上的所有观测点,仅确定垂直磁传递函数(VMPF)的参数,其形式为感应矢量的实部(Cu)和虚部(Cv)。稳定感应矢量的定义周期为10-20 ~ 4900-10 800 s。对于大多数点,可以估计Cu, Cv的值,误差为0.02-0.04°,AzCu, AzCv为3-5°。分析表明,在某些点上,Cu、Cv在不同的时间间隔内存在异常行为。在最短时间(约20 s)和最长时间(600 ~ 1000 s)内,Cu方向完全重合,表明研究区西部准纵向走向存在异常电导率。铜矢量的这一行为与新生代矿床的幂等断层走向吻合较好。在50 ~ 200s的中间阶段,Cu的行为更为复杂。在接近地震高活动性带时,Cu的方向与之前的方向相差近90°。在该区域南部4个点的MTS曲线一维反演得到的地电剖面上,发现了异常层(ρ约为10欧姆·m,物体中心深度为15-20 km)。可以假设,该地区地壳中导电良好的物体,显然阻止了附近地震的地震波向北传播到KNPP。
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Geoelectric studies of the Kozloduy nuclear power plant region, Bulgaria
The task of the work was geoelectrical studies using variations of the magnetotelluric (MT) field of the Kozloduy nuclear power plant (KNPP) region and the integration of its results with other geological and geophysical knowledge. This paper presents the determined interpretation parameters of the MT field. The KNPP is located on the right bank of the Danube River in close proximity to the river. This fact, together with the location of electrified railways determined the unique network of locations of observation points for MT field variations. Based on the analysis of Earthquake Catalogs of Bulgaria and international seismicity databases, a map of the seismicity of nuclear power plant areas was built. Over the past 50 years, about 750 earthquakes (mainly south of KNPP) have been recorded at a distance of 40—80 km from the KNPP. Two magnetotelluric stations GEOMAG-02 were used at measurement sites, but equipment for recording electrical channels was available only for one station (due to the lack of another set of non-polarizable electrodes). The MT field variations were observed at 21 points, which are located on the territory with sides approximately 30—35 km from east to west and 40—50 km from north to south. For all observation points on the profile, only the parameters of the vertical magnetic transfer function (VMPF) were determined, in the form of the real (Cu) and imaginary (Cv) parts of the induction vector. The steadily induction vector was defined for periods from 10—20 to 4900—10 800 s. For most points it was possible to estimate the values Cu, Cv with an error of 0.02—0.04 and AzCu, AzCv 3—5°. The analysis showed the presence of anomalous behavior of Cu, Cv in different intervals of periods at some points. In the shortest (about 20 s) and longest periods (600 to 1000 s), the Cu directions completely coincide and indicate the presence of anomalous conductivity of the quasi-longitudinal strike to the west of the study area. This behavior of the Cu vector is in good agreement with power isohypsum strike of the Cenozoic deposits. At intermediate periods of 50—200 s, the behavior of Cu is more complex. Approaching the zone of high seismicity, the direction of the Cu differs from the previous ones by almost 90°. On the Geoelectrical sections, obtained as a result of 1D inversions of MTS curves at 4 points located in the southern part of the region, anomalous layers are identified (ρ about 10 ohm · m, the depth of the center of the object is 15—20 km). It can be assumed that well-conducting objects in the Earth’s crust of the region, apparently, prevent the propagation of seismic waves from nearby earthquakes to the north towards the KNPP.
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Geofizicheskiy Zhurnal-Geophysical Journal
Geofizicheskiy Zhurnal-Geophysical Journal GEOCHEMISTRY & GEOPHYSICS-
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