Geothermal energy potential of southwestern of Saudi Arabia "exploration and possible power generation": A case study at Al Khouba area – Jizan Aref Lashin a,b,n , Nassir Al Arifi c a Benha University, Faculty of Science – Geology Department, P.O. Box 13518, Benha, Egypt b King Saud University, College of Engineering – Petroleum and Gas Engineering Department, P.O. Box 800, Riyadh 11421, Saudi Arabia c King Saud University, College of Science – Geology and Geophysics Department, P.O. Box 2455, Riyadh 11451, Saudi Arabia article info Article history: Received 11 May 2013 Received in revised form 24 September 2013 Accepted 23 October 2013 Available online 1 December 2013 Keywords: Geothermal potential Satellite images Geo-thermometers 2D electric survey Reserve estimation Al Khouba - Saudi Arabia abstract Saudi Arabia is enriched by many geothermal resources located mainly at the western and southwestern parts. These resources are related to the general tectonic activity of the Red Sea and associated with a series of volcanic rocks and ridges. The Jizan area is considered as a promising geothermal system that includes a number of structural-related hot springs with surface temperature from 46 1C to 78 1C. The present work aims mainly to explore and locate the potentiality of these resources through analyzing the available satellite images, applying a number of geo-indicators and performing a 2D electric geophysical survey, as well as estimating the geothermal reserve potential for possible energy production. The available ETM, TM 5 and 7 Landsat satellite images are interpreted. A geo-thermometric study was performed to determine the subsurface formation temperature, heat flow and water type. A number of 2D electric profiles are conducted in the study area to investigate the subsurface orientation of the geothermal anomalies. The recorded resistivity data are processed and interpreted to delineate the lateral and vertical configuration of the possible geothermal reservoirs. This study revealed the presence of many good geothermal anomalies in Jizan province of which Al Khouba geothermal resource is considered the most important. It is characterized by good surface petro- thermal properties (high temperature, up to 78 1C and good flow rate) and promised subsurface characteristics (good vertical and lateral extensions), as well as potential thermal properties. The estimated thermal parameters are found to be 144 mW/M 2 , 318 kJ/kg and 133 1C for heat flow, discharge enthalpy and subsurface temperature, respectively. A good geothermal potential of 17.847MWt is estimated for Al Khouba hot spring providing a reservoir area of 1.125km 3 . We do recommend the official authorities to investment, encourage and support the future scientific research in this area. & 2013 Elsevier Ltd. All rights reserved. Contents 1. Introduction ........................................................................................................ 772 2. Geologic setting ..................................................................................................... 774 2.1. Precambrian basement complex .................................................................................. 774 2.1.1. Sabya formation ........................................................................................ 774 2.1.2. Baish group ........................................................................................... 775 2.1.3. Halaban group ......................................................................................... 775 2.2. Meta-sedimentary units ........................................................................................ 775 2.3. Intrusive rocks ................................................................................................ 775 2.4. Quaternary rocks and sediments ................................................................................. 775 2.5. Field surveys and recent geothermal activities ...................................................................... 775 3. Materials and methods ............................................................................................... 776 3.1. Landsat and satellite images ..................................................................................... 776 Contents lists available at ScienceDirect journal homepage: www.elsevier.com/locate/rser Renewable and Sustainable Energy Reviews 1364-0321/$ - see front matter & 2013 Elsevier Ltd. All rights reserved. http://dx.doi.org/10.1016/j.rser.2013.10.037 n Corresponding author at: King Saud University, College of Engineering, Petroleum and Natural Gas Engineering Department, P.O. Box 800, Riyadh 11421, Saudi Arabia. Tel.: +966 540852336; fax: +96614670389. E-mail addresses: aref70@hotmail.com, alashin@ksu.edu.sa (A. Lashin). Renewable and Sustainable Energy Reviews 30 (2014) 771–789