铀再分配在埃及东北沙漠花岗岩放射性热产生中的作用

IF 0.6 4区地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS

Exploration Geophysics Pub Date : 2022-02-07 DOI:10.1080/08123985.2022.2031966

Atef M Abu Donia

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引用次数: 1

摘要

花岗岩侵入体传统上是地热勘探的焦点，因为花岗岩是产热元素（HPE；U，Th&K）的主要宿主。研究区域的航空光谱伽马射线数据突出了花岗岩单元中HPE丰度的变化，表明这些岩石的放射性产热（RHP）值的变化。花岗岩RHP的计算算术平均值从英云闪长岩的0.96µWm−3到1.10 花岗闪长岩为µWm−3，随后逐渐增加至1.52 二长花岗岩和2.51的µWm−3 碱性长石花岗岩为µWm−3。对花岗岩中U和Th元素分布的主要控制似乎主要是岩浆分化，并反映在这些元素之间的线性相关性中。此外，随后的岩浆后热液在有益的次生铀矿化的再活化中发挥着重要作用，从而被捕获和富集在碱性长石花岗岩中。

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Role of uranium redistribution in radioactive heat production of granitic rocks, Northern Eastern Desert, Egypt

Granitoid intrusions traditionally form a focus for geothermal heat exploration, as granite is a major host for Heat-Producing Elements (HPE; U, Th & K). Airborne spectral gamma-ray data for the study area highlight variations in HPE abundances in granitic rock units, indicating variation in the Radioactive Heat Production (RHP) values of these rocks. The computed arithmetic means of RHP for granitic rocks range from 0.96 µWm−3 for tonalite-quartz diorite to 1.10 µWm−3 for granodiorite, followed by a gradual increase to 1.52 µWm−3 for monzogranite and 2.51 µWm−3 for alkali-feldspar granite. The major control on the distribution of U and Th elements in the granitoid rocks appears to have been primarily of magmatic differentiation and is reflected in the linear correlation between these elements. Besides, subsequent post-magmatic hydrothermal fluids play their important roles in remobilization of profitable secondary U-mineralizations to be trapped and enrichment in the alkali-feldspar granitic rocks.

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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.