Magnetotelluric Case Study from Ain Al-Harrah Hot Spring, Al-Lith, Saudi Arabia

A couple of studies show that Saudi Arabia has promising geothermal resources. The most prominent sites are located around Al-Lith, with four hot springs, where Ain Al-Harrah has the highest temperature. Previous studies suggest that this hot spring’s geothermal reservoir is promising and may provid...

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Veröffentlicht in:	Arabian journal for science and engineering (2011) 2024, Vol.49 (1), p.899-912
Hauptverfasser:	Ashadi, Abdul Latif, Tezkan, Bulent, Yogeshwar, Pritam, Hanstein, Tilman, Kirmizakis, Panagiotis, Khogali, Abid, Chavanidis, Konstantinos, Soupios, Pantelis
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Schlagworte:	Broadband Convection cells Data acquisition Engineering Geothermal power Geothermal resources Hot springs Humanities and Social Sciences multidisciplinary Research Article-Earth Sciences Science Springs (elastic)
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container_title	Arabian journal for science and engineering (2011)
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creator	Ashadi, Abdul Latif Tezkan, Bulent Yogeshwar, Pritam Hanstein, Tilman Kirmizakis, Panagiotis Khogali, Abid Chavanidis, Konstantinos Soupios, Pantelis
description	A couple of studies show that Saudi Arabia has promising geothermal resources. The most prominent sites are located around Al-Lith, with four hot springs, where Ain Al-Harrah has the highest temperature. Previous studies suggest that this hot spring’s geothermal reservoir is promising and may provide the Al-Lith region with long-term electricity. Our key objective is to investigate and explore more comprehensively the prospect of geothermal resources around the Ain Al-Harrah hot spring. To achieve this goal, we acquired broadband magnetotellurics (MT) data in the period range 0.001–60 s for three different sampling frequencies at 15 soundings along one profile. The 2D inversion results show three main units. A conductive anomaly ( 3.5 km below the surface is most likely related to a geothermal heat source. The high resistive zones (roughly 200–4000 Ω.m) are associated with hard-rock geological formations. Although uncertain, a detected medium resistive body (30–200 Ω.m) at a depth of 800 m below the surface possibly indicates the pathway of geothermal fluids forming a convection cell between the hot body and the surface. A lateral resistivity discontinuity is considered a fracture zone acting as a pathway for the fluids to reach the surface forming the hot spring.
doi_str_mv	10.1007/s13369-023-08293-8
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Although uncertain, a detected medium resistive body (30–200 Ω.m) at a depth of 800 m below the surface possibly indicates the pathway of geothermal fluids forming a convection cell between the hot body and the surface. 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Although uncertain, a detected medium resistive body (30–200 Ω.m) at a depth of 800 m below the surface possibly indicates the pathway of geothermal fluids forming a convection cell between the hot body and the surface. 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subjects	Broadband Convection cells Data acquisition Engineering Geothermal power Geothermal resources Hot springs Humanities and Social Sciences multidisciplinary Research Article-Earth Sciences Science Springs (elastic)
title	Magnetotelluric Case Study from Ain Al-Harrah Hot Spring, Al-Lith, Saudi Arabia
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