| Title | Active Geothermal Systems in Simav and Environs Within the Menderes Massif, Western Anatolia, Turkey |
|---|---|
| Authors | Nevzat ÖZGÜR, Olayinka Abiodun BELLO, ÇALISKAN Tuðba Arife |
| Year | 2015 |
| Conference | World Geothermal Congress |
| Keywords | Turkey, Western Anatolia, Mendres Massif, Simav, geothermal, hydrogeology, hydrogeochemistry, isotope geochemistry, modelling |
| Abstract | Sýmav geothermal field, one of Turkey’s most important fields, is located in Kütahya’s Sýmav continental rift system of western Anatolia, Turkey. It is on the eastern part of the rift system and approximately 4km north of Sýmav town and on the NE edge of the Sýmav plain, which is separated from the mountain by a high and steep escarpment. The plain covers an area of about 70km2 and is at an altitude of about 780 m asl and lies on latitude 390 5’ 23”N and longitude 280 58’ 46”E. The thermal waters of Simav can be classified as Na-HCO3-SO4 exchange type water with the dominant cations in increasing order of Na+K more than Ca more than Mg while the anions are HCO3 more than SO4 more than Cl. The Cl-SO4-HCO3 ternary diagram shows that the waters are peripheral/immature and more likely related to groundwater heated by steam from deeper reservoirs. Quartz, aragonite, calcite and chalcedony are oversaturated at discharge temperatures while at a recomputed temperature according to the reservoir composition, only quartz, dolomite and chalcedony are oversaturated. The silica geothermometer shows reservoir temperatures between 830C–1820C. The Na-K-Ca-Mg correction cation geothermometer gave reservoir temperatures close to the measured reservoir temperature on site in Eynal which is between 1480C and 1630C. The waters plot along the meteoric trend line suggesting the source from local meteoric water and are rich in 18O. This situation points to the existence of fluid-interaction in the system and/or boiling due to the high temperature in the reservoir. |