Determination of Curie Point Depth and Heat Flow Using Airborne Magnetic Data over the Kom-Ombo and Nuqra Basins, Southern Eastern Desert, Egypt

Geomaterials Pub Date : 2023-01-01 DOI:10.4236/gm.2023.134007

Ahmed Tarshan, Asmaa A. Azzazy, Ali M. Mostafa, Ahmed A. Elhusseiny

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Abstract

The Kom-Ombo and Nuqra basins in southern Egypt have recently been discovered as potential hydrocarbon basins. The lack of information about the geothermal gradient and heat flow in the study area gives importance to studying the heat flow and the geothermal gradient. Several studies were carried out to investigate the geothermal analyses of the northwestern desert, as well as the west and east of the Nile River, using density, compressive wave velocity, and bottom hole temperature (BHT) measured from deep oil wells. This research relies on spectral analysis of airborne magnetic survey data in the Kom-Ombo and Nuqra basins in order to estimate the geothermal gradient based on calculating the depth to the bottom of the magnetic source that caused the occurrence of these magnetic deviations. This depth is equal to the CPD, at which the material loses its magnetic polarisation. This method is fast and gives satisfactory results. Usually, it can be applied as a reconnaissance technique for geothermal exploration targets due to the abundance of magnetic data. The depth of the top (Zt) and centroid (Z0) of the magnetic source bodies was calculated for the 32 windows representing the study area using spectral analysis of airborne magnetic data. The curie-isotherm depth, geothermal gradient, and heat flow maps were constructed for the study area. The results showed that the CPD in the study area ranges from 13 km to 20 km. The heat flow map values range from 69 to 109 mW/m2, with an average of about 80 mW/m2. The calculated heat flow values in the assigned areas (A, B, C, and D) of the study area are considered to have high heat flow values, reaching 109 mW/m2. On the other hand, the heat flow values in the other parts range from 70 to 85 mW/m2. Since heat flow plays an essential role in the maturation of organic matter, it is recommended that hydrocarbon accumulations be located in places with high heat flow values, while deep drilling of hydrocarbon wells is recommended in places with low to moderate heat flow values.

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利用航空磁资料测定埃及东部沙漠南部Kom-Ombo和Nuqra盆地的居里点深度和热流

近年来，埃及南部的Kom-Ombo和Nuqra盆地被发现为潜在的油气盆地。研究区地温梯度和地温梯度信息的缺乏，使得热流和地温梯度的研究具有重要意义。利用从深油井中测量的密度、压缩波速度和井底温度(BHT)，研究了西北沙漠以及尼罗河西部和东部的地热分析。本研究通过对Kom-Ombo盆地和Nuqra盆地航空磁测数据的频谱分析，在计算导致这些磁偏差发生的磁源至底部深度的基础上，估算地热梯度。这个深度等于CPD，在CPD处材料失去其磁极化。该方法速度快，结果令人满意。由于磁资料丰富，通常可以作为地热勘探目标的一种侦察技术。利用机载磁数据的频谱分析，计算了代表研究区的32个窗口的磁源体的顶部深度(Zt)和质心深度(Z0)。建立了研究区居里等温线深度图、地温梯度图和热流图。结果表明:研究区CPD在13 ~ 20 km之间;热流图值范围为69 ~ 109 mW/m2，平均约为80 mW/m2。研究区域内指定区域(A、B、C、D)的计算热流值被认为是高热流值，达到109 mW/m2。另一方面，其他部分的热流值在70 ~ 85 mW/m2之间。由于热流在有机质成熟过程中起着至关重要的作用，因此建议在热流高的地方进行油气聚集，而在热流低至中等的地方建议进行深钻油气井。

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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Geomaterials

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