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 mu Wm(-3) for tonalite-quartz diorite to 1.10 mu Wm(-3) for granodiorite, followed by a gradual increase to 1.52 mu Wm(-3) for monzogranite and 2.51 mu Wm(-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.