Subsurface Structural Analysis Using Well Logs to Study Faults of the Lower Atokan Formation in the Arkoma Basin, Northcentral Arkansas

IOSR Journal of Environmental Science, Toxicology and Food Technology Pub Date : 2017-05-01 DOI:10.9790/2402-1105026577

Fatimah T. Alasadi, Wathiq Abdulnaby, D. Zachry

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引用次数: 1

Abstract

Well logs observations have contributed to our understanding of the subsurface structures of the Arkoma Basin. These observations have led to a new explanation of the relationship between surface and subsurface structure of the basin. About 1500 well logs were used in this study to conduct a subsurface structural analysis of faults in the Arkoma basin of northcentral Arkansas. The Arkoma Basin is one of many petroleum basins in the United States which is structurally characterized by series of normal faults. In this study the faults were analyzed by building a structural contour map for Lower Atokan Formation (about 350 million years in age) and plotting nine cross sections using the well logs. The subsurface contour map shows very good match with the faults in the Arkoma basin. Two master fault zones were recognized in this study; the Mulberry and Clarksville fault zones, with displacement ranges from 1567 feet to 500 feet respectively. These fault zones trend northwest to southeast in the study area with an average strike azimuth of 285°. The principal stress axes that are responsible of forming the faults in the study area were calculated by measuring the attitudes of faults from the subsurface contour map and cross sections. The principal stress axes are represented by the plunge angle and plunge direction. The results show that the directions of the maximum, intermediate, and minimum stress axes of the Mulberry fault are 01°/286°, 69°/195°, 21°/016°, and of the Clarksville fault are 05°/287°, 66°/186°, and 24°/019° respectively. From these values, it can be seen that the two master faults are affected by the same tectonic stress regime. This study reveals a new finding of series of subsurface sub-basin structure in the analyzed area. One of the major sub-basins, named the Bullfrog Sub-basin, reveals tremendous extension about 4 miles to the surface and subsurface to the northcentral part of the area.

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利用测井资料对阿肯色州中北部Arkoma盆地下Atokan组断层进行地下结构分析

测井观测有助于我们了解Arkoma盆地的地下结构。这些观测结果对盆地地表和地下结构之间的关系提出了新的解释。在这项研究中，使用了大约1500口测井曲线，对阿肯色州中北部的Arkoma盆地的断层进行了地下结构分析。Arkoma盆地是美国众多以正断层为构造特征的含油气盆地之一。本研究通过绘制下Atokan组(约3.5亿年)的构造等高线图，并利用测井曲线绘制了9个剖面，对断层进行了分析。地下等高线图与Arkoma盆地的断层吻合良好。研究确定了两个主断裂带;Mulberry和Clarksville断裂带，位移范围分别为1567英尺到500英尺。这些断裂带在研究区内走向为西北至东南，平均走向方位角为285°。根据地下等高线图和断层剖面图，测量断层走向，计算出研究区断裂形成的主应力轴。主应力轴由突向和突向表示。结果表明，桑断裂的最大、中间、最小应力轴方向分别为01°/286°、69°/195°、21°/016°，克拉克斯维尔断裂的最大、中间、最小应力轴方向分别为05°/287°、66°/186°和24°/019°。从这些数值可以看出，两条主断裂受同一构造应力制度的影响。该研究揭示了分析区内一系列地下次盆地构造的新发现。其中一个主要的子盆地，被称为牛蛙子盆地，显示出巨大的延伸约4英里的地表和地下到该地区的中北部。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IOSR Journal of Environmental Science, Toxicology and Food Technology

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