根据航空地球物理调查数据探测埃及西部沙漠Qaret El Soda地区的潜在碳氢化合物聚集

IF 0.6 4区地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS Exploration Geophysics Pub Date : 2023-05-07 DOI:10.1080/08123985.2023.2192864

Atef M Abu Donia, R. A. Y. El-Qassas, Ali M. M. Mohamed

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引用次数: 0

摘要

利用Th归一化技术对埃及西部沙漠Qaret El Soda地区的航空光谱伽马射线测量数据进行了处理，用于石油和天然气勘探。该技术用于抑制地表岩性的影响，而地表岩性是影响岩石中放射性元素含量变化的主要因素。通过钍对K和U进行归一化，得出了残余钾和残余铀的估计值。通过绘制相对于钾的低残留钾值和高残留铀值来确定新碳氢化合物微渗漏的可能发生，这些值表示为DRAD值，通过从残留铀值中减去残留钾来获得（eUresid–Kresid）。较低的K残差值与较高的DRAD异常值相关，突出了潜在的油气聚集区域。航磁数据的定量分析和解释结果表明，沉积物足够厚，可能适合碳氢化合物的积累。这意味着，如果得到其他详细的地球物理和地球化学勘探技术的支持，研究区域可能具有油气勘探的潜力。

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Detection of potential hydrocarbon accumulations at Qaret El-Soda area, Western Desert, Egypt, based on airborne geophysical survey data

Airborne spectral gamma-ray survey data were processed using Th-normalization technique for oil and gas exploration in the Qaret El-Soda area, Western Desert of Egypt. This technique was applied to suppress the effects of surface lithology, which are the main factors influencing the variation of radioelement content in rocks. Normalization of K and U by thorium yielded residual potassium and residual uranium estimates. Possible occurrences of new hydrocarbon microseepages were determined by mapping low values of residual potassium and high values of residual uranium relative to potassium, which are indicated as DRAD values, which were obtained by subtracting residual potassium from residual uranium values (eUresid – Kresid). Lower residual values of K, which were associated with higher DRAD anomaly values, highlight areas of prospective hydrocarbon accumulations. The obtained results from quantitative analysis and interpretation of aeromagnetic data show sufficiently thick sediments, probably suitable for the accumulation of hydrocarbons. This means that the study area may possess a potential for hydrocarbon exploration if supported by other detailed geophysical and geochemical exploration techniques.

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来源期刊

Exploration Geophysics 地学-地球化学与地球物理

CiteScore

2.30

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Exploration Geophysics is published on behalf of the Australian Society of Exploration Geophysicists (ASEG), Society of Exploration Geophysics of Japan (SEGJ), and Korean Society of Earth and Exploration Geophysicists (KSEG). The journal presents significant case histories, advances in data interpretation, and theoretical developments resulting from original research in exploration and applied geophysics. Papers that may have implications for field practice in Australia, even if they report work from other continents, will be welcome. ´Exploration and applied geophysics´ will be interpreted broadly by the editors, so that geotechnical and environmental studies are by no means precluded. Papers are expected to be of a high standard. Exploration Geophysics uses an international pool of reviewers drawn from industry and academic authorities as selected by the editorial panel. The journal provides a common meeting ground for geophysicists active in either field studies or basic research.