الفهرس 
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Abstract
Recently, several urban and service development projects were carried out at the “City of Al-Galala Mountain”, along the Egyptian Gulf of Suez, between Ain Sokhna and El Galala El Bahariya Plateau. This region is adjacent to the Gulf of Suez rift, which is an active geothermal area, as indicated by the geothermal surface manifestations, such as: thermal hot springs. It is a zone between two tectonic plates, which is expected to have a several geothermal reservoirs; consequently, it represents a potential area for geothermal prospecting. Aeromagnetic data interpretation was performed to define the deep and shallow structures in the study area and their distribution to select the most probable site to represent a geothermal reservoir suitable to construct a geothermal power system. Consequently, two sites were chosen to conduct a detailed study, with ground magnetic and (1D MT) to discover variations in conductivity (resistivity) and fix the depth of predicted geothermal reservoir as well as the distribution of deep and shallow faults which can facilitate geothermal solutions flow and injection to exploit the geothermal source energy. The obtained results showed that, the study area is intensely faulted with major NW-SE trend and minor E-W trend. Meanwhile the (MT) results show several conductive and resistive zones at different depths, which could be correlated with faulting zones, suitable to predict geothermal sources and aquifers.