喀尔巴阡油气区地壳磁特征与构造构造作为复杂油气标准的组成部分

IF 0.6 Q4 GEOCHEMISTRY & GEOPHYSICS
M. Orlyuk, M. Bakarjieva, A. Marchenko
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引用次数: 1

摘要

首次对喀尔巴阡地区的地磁场和油气容量进行了定性和定量分析,从而揭示了油气矿床与区域和局部地壳磁化的联系以及根据地震资料揭示地壳深部结构特征。地磁标准揭示的喀尔巴阡含油区油气分布的规律性,与区域和局部重力场和热流密度异常的联系得到了证实。根据对PANCAKE和RomUkrSeis大地线区域地磁场和磁场模型的分析,气田位于地壳中下部磁性块体上方或边缘部分,油田位于几乎无磁性的深部块体上方。在喀尔巴阡弧的逆冲部分下,地壳构造的区域特征明显,即从Rakhiv市的经度开始,地磁、重、热等区域异常及其水平梯度带的下沉延伸方向占优势。该地区的油气潜力与此很好地吻合,气田被定时到区域磁场的区域水平梯度的最小值,布盖异常的梯度增加,热流密度异常的水平梯度的最小值。在局部地球物理场中,气田被弱负磁异常及其梯度带所吸引;以重力场负异常为主;到西北部泛欧缝合带内(不含克拉科韦茨断层中部)热流密度正异常,喀尔巴阡海槽负异常。石油和凝析油矿床与磁场正异常带、重力场负异常带和热流密度增大带相关。喀尔巴阡地区的主要深断裂和台地边缘的一阶近似为Velikomostivsko-Chernivetsky,表征了其磁场、重力场特征和热流密度的变化;Rava-Rusky,反映了东、西欧台地的联结带;Pre-Carpathian -地球表面的前喀尔巴阡海槽和褶皱喀尔巴阡山脉的边界(以及现代国际年代地层尺度上太古宙-古元古代和中-新元古代地壳的边界)和外喀尔巴阡断裂的边界。根据地磁资料和地震资料,提出了这些断裂的假定深度位置以及油气流入地壳上部的可能联系。因此,在喀尔巴阡地区重力场和热流密度异常研究成果的基础上,统一了喀尔巴阡地区地壳含油气能力的地磁判据,从而可以根据该地区的区域和局部特征,初步预测油气、凝析油和天然气、凝析油的分布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Magnetic characteristics and tectonic structure of the Earth's crust of the Carpathian oil and gas region as a component of complex hydrocarbon criteria
For the first time, a qualitative and quantitative analysis of the geomagnetic field and oil and gas capacity was performed for the territory of the Carpathian region, which made it possible to reveal the connection of hydrocarbon deposits with the magnetization of the Earth’s crust at the regional and local levels and the features of the deep structure of the Earth’s crust according to seismic data. The regularity of the distribution of oil and gas deposits of the Carpathian oil and gas-bearing region revealed by geomagnetic criteria is confirmed by their connection with regional and local anomalies of the gravity field and heat flow density. According to the analysis of the regional geomagnetic field and magnetic models along the PANCAKE and RomUkrSeis geotraverses, gas fields are located above the magnetic blocks of the middle and lower parts of the Earth’s crust or in their marginal parts, and oil fields are located above practically non-magnetic deep blocks. Under the thrust part of the Carpathian arc, the regional features of the Earth’s crust structures are clearly manifested, namely, starting from the longitude of the city of Rakhiv, the submeridional direction of extension of regional anomalies of magnetic, gravity, and thermal fields and their horizontal gradient zones prevails. The oil and gas potential of the region is in good agreement with this — the gas fields are timed to the minimum values of the regional horizontal gradient of the regional magnetic field, to the increased gradient of Bouguet anomalies, as well as to the minimum values of the horizontal gradient of heat flow density anomalies. In local geophysical fields, gas fields are gravitating: to weakly negative magnetic anomalies and their gradient zones; to negative anomalies of the gravitational field predominantly; to positive anomalies of heat flow density in the northwest, within the area of Trans-European suture zone (without the middle of the Krakovets fault), and negative anomalies in the Carpathian trough. Oil and oil condensate deposits are correlated with a band of positive magnetic field anomalies, negative gravity field anomalies, and increased heat flux density values. The main deep faults of the Carpathian region and the marginal part of the Platform in the first approximation can be considered Velikomostivsko-Chernivetsky, which characterizes the change in the character of magnetic and gravity fields and heat flow density, Rava-Rusky, which reflects the zone of articulation of the Eastern and Western European platforms, Pre-Carpathian — the border of the Pre-Carpathian trough and the Folded Carpathians on the Earth’s surface (as well as the boundary of the Archaean(?)-Paleoproterozoic and Meso-Neoproterozoic crust according to the modern international chronostratigraphic scale), as well as the Transcarpathian fault. On the basis of magnetic and seismic data, the hypothetical depth position of these faults and the possible connection with them of hydrocarbon flows into the upper part of the Earth’s crust are proposed. Therefore, the geomagnetic criteria of the oil and gas bearing capacity of the Earth’s crust of the Carpathian region are agreed based on the results of the study of the gravity field and heat flow density anomalies, which makes it possible to predict the spread of oil and oil condensate and gas and gas condensate deposits according to the regional and local features of these fields in a first approximation.
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Geofizicheskiy Zhurnal-Geophysical Journal
Geofizicheskiy Zhurnal-Geophysical Journal GEOCHEMISTRY & GEOPHYSICS-
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