The Possibilities of On-Board Gravimetric and Hydromagnetic Surveys in Solving Engineering-Geological Problems on the Shelf

IF 0.3 Q4 GEOLOGY
M. V. Kochetov, A. A. Shepelev, S. V. Chelyshev
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引用次数: 0

Abstract

The possibilities of using on-board gravimetry and hydromagnetometry together with high-resolution seismic surveying in the framework of engineering-geological surveying in the Arctic shelf area of the Russian Federation are considered. The surveys were carried out in the southern part of the Kara Sea shelf in a study area of 25 km2 in order to identify potentially hazardous zones for setting up a floating drilling rig. The studies were carried out using a regular survey grid, consisting of 51 row and 26 secant profiles. The length of each profile was 5 km. The gravity surveys were performed with a Chekan-AM marine on-board gravimeter. The magnetometer surveys were conducted using SeaSPY 2 towed marine magnetometers. The dense survey grid, high-precision equipment, and field work procedure made it possible to obtain high accuracy of surveys: 0.14 mGal and 1.12 nT. The depth of research in engineering-geological surveying by the presented set of methods varied from the first hundred meters to 1 km. The long-term experience in engineering-geological surveys in the Arctic shelf area by personnel of Marine Arctic Exploration Expedition JSC shows that paleoincisons and paleovalleys are common hazards of a geological nature in this region. These structures are conventionally filled with weakly consolidated, often gas-saturated, sediments with inclusions of large-rock fragments. Paleoincisions clearly manifest themselves in the high-frequency component of the magnetic field; the local component of the anomalous magnetic field was calculated to detect them. As a result of complex interpretation of gravity field anomalies and magnetic survey data, a curved linear zone intersecting the entire study area has been localized. The identified anomalous zone is confined to the boundaries of the paleoincision, which was originally discovered according to the data of seismoacoustic studies. Based on the results of interpreting the magnetometer surveys, an area of negative magnetic anomalies was found in the eastern part of the study area. According to the materials of seismoacoustic studies, paleoincisions of a complex spatial and deep configuration are traced in this zone. It is noteworthy that these structures do not occur in the magnetic field. Based on the obtained values of the gravity field and seismoacoustic data, a seismic-density section of meridional strike was constructed across the entire area. As a result of 2D seismo-density modeling, the densities for the undercut paleoincision were selected and two decompacted areas were found at a depth of 200 m. The decompacted areas can be caused by the gas saturation of the sedimentary stratum and need to be considered in installing a floating drilling rig. The interpretation of the anomalous gravity field in the specified complex of geophysical methods with a priori geological information allows the prediction of the density structure of the study rock mass and provides recommendations for future research.

Abstract Image

船载重力和水磁测量在解决陆架工程地质问题中的可能性
摘要:本文讨论了在俄罗斯联邦北极陆架地区工程地质调查框架内,采用船载重力和水磁测量结合高分辨率地震测量的可能性。调查是在喀拉海大陆架南部25平方公里的研究区域进行的,目的是确定建立浮式钻井平台的潜在危险区域。这项研究使用了一个常规的调查网格,包括51个行剖面和26个割线剖面。每条剖面的长度为5公里。重力测量使用Chekan-AM船用机载重力仪进行。磁力计测量使用的是SeaSPY 2拖曳式海洋磁力计。密集的测量网格、高精度的设备和现场工作程序使测量精度达到了0.14 mGal和1.12 nT。该方法在工程地质调查中的研究深度从最初的100米到1公里不等。海洋北极考察队人员在北极陆架地区进行长期工程地质调查的经验表明,古切口和古峡谷是该地区常见的地质灾害。这些结构通常充满了弱固结的,通常是含气饱和的,带有大块岩石碎片包裹体的沉积物。古切口明显地表现在磁场的高频成分中;通过计算异常磁场的局部分量来检测异常磁场。由于对重力场异常和磁测资料的复杂解释,已经确定了与整个研究区相交的弯曲线性带。发现的异常带局限于古切口的边界,这是最初根据地震声学研究资料发现的。根据磁强计测量的解释结果,在研究区东部发现了一个负磁异常区。根据地震声学研究资料,发现该区具有复杂的空间和深部构造的古切口。值得注意的是,这些结构并不发生在磁场中。根据获得的重力场值和地震声资料,构建了整个地区经向走向的地震密度剖面。通过二维地震-密度模拟,选择了下切古切口的密度,在200 m深度处发现了两个解压缩区。减压区可能是由沉积层的含气饱和度造成的,在安装浮式钻井平台时需要考虑。利用先验地质信息对特定复杂的地球物理方法中的异常重力场进行解释,可以预测研究岩体的密度结构,并为今后的研究提供建议。
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来源期刊
CiteScore
0.60
自引率
25.00%
发文量
43
期刊介绍: Moscow University Geology Bulletin  is the journal that mainly publishes scientific articles, short reports of graduate students, and reviews. Publications made by the members of the Faculty of Geology of the Moscow State University and their collaborators are published. Publications encompass all branches of geology.
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