Determination of Geothermal Fluid Characteristics in Pawan and Pendalian IV Koto Villages, Rokan Hulu Regency, Riau Province Using Geochemical Methods
DOI:
10.29303/jppipa.v8i2.1491Published:
2022-04-30Issue:
Vol. 8 No. 2 (2022): AprilKeywords:
Geochemistry, Rokan Hulu, Geothermal, Fluid GeothermometerResearch Articles
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Abstract
Geothermal in Pawan and Pendalian IV Koto Villages is one of the post-volcanic geothermal areas in the Rokan Hulu Regency. This study aims to determine the characteristics of geothermal fluids and estimate reservoir temperature based on geothermometer estimation. The research method used in the study consisted of several stages, namely field data collection and fluid geochemical analysis. The research results from 12 hot springs plotted on the Cl-Li-B triangle diagram show that all hot water samples are dominated by Cl, indicating that the hot springs are far from the geothermal reservoir. The Cl-SO4-HCO3triangle diagram shows that all of the hot springs are bicarbonate water types dominated by HCO3. The Na-K-Mg triangle diagram shows that all fluid samples are in the immature water area, which indicates that the fluid has undergone a reaction with other elements or the influence of meteoric water is quite dominant. The results of calculations with a geothermometer, the estimated reservoir temperature in the geothermal area is in the range of 160.69°-176.76°C, which is included in the medium-temperature reservoir system. Geothermal in this area can be used as the geothermal potential for developing geothermal power plants.References
Aribowo, Y. (2011). Prediksi Temperatur Reservoar Panasbumi dengan Menggunakan Metoda Geotermometer Kimia Fluida. Teknik, 32(3), 234–238. https://doi.org/10.14710/teknik.v32i3.1743
Aribowo, Y. and Nurohman, H. (2012). Studi geokimia air panas area prospek panasbumi gunung kendalisodo kabupaten semarang. Teknik, 33(1), 32–36. https://doi.org/10.14710/teknik.v33i1.3793
Arnórsson, S. (1985). The use of mixing models and chemical geothermometers for estimating underground temperatures in geothermal systems. Journal of Volcanology and Geothermal Research, 23(3-4), 299-335. https://doi.org/10.1016/0377-0273(85)90039-3
Giggenbach, W. F. (1991). Chemical techniques in geothermal exploration. Application of Geochemistry in Geothermal Reservoir Development, 119–144. Retrieved from https://eurekamag.com/research/018/550/018550955.php
Hochstein, M. and Browne, P. R. (2000). Surface manifestations of geothermal systems with volcanic heat sources. Encyclopedia of Volcanoes, 1, 835–855.
Hochstein, M. P., Ovens, S. A. and Bromley, C. (1996). Thermal springs at hot water beach (Coromandel Peninsula, NZ). Proceedings 18th NZ Geothermal Workshop, New Zealand.
Indratmoko, P., Nurwidyanto, M. I. and Yulianto, T. (2009). Interpretasi Bawah Permukaan Daerah Manifestasi Panas Bumi Parang Tritis Kabupaten Bantul DIY dengan Metode Magnetik. Berkala Fisika, 12(4), 153–160. Retrieved from https://ejournal.undip.ac.id/index.php/berkala_fisika/article/view/2924
Jasmita, M. and Putra, A. (2020). Identifikasi Karakteristik Mata Air Panas Bumi di Sibanggor Tonga Kabupaten Mandailing Natal Menggunakan Diagram Segitiga Fluida. Jurnal Fisika Unand, 9(4), 428–435. https://doi.org/10.25077/jfu.9.4.428-435.2020
Kühn, M. (2004). Reactive flow modeling of hydrothermal systems Berlin, Springer Science & Business Media.
Lawless, J. V., White, P. J., Bogie, I. and Andrews, M. J. (1995). Tectonic features of Sumatra and New Zealand in relation to active and fossil hydrothermal systems: a comparison. Proceedings of the PANCRIM Congress, Auckland.
Murray, K. S. (1996). Hydrology and geochemistry of thermal waters in the Upper Napa Valley, California. Groundwater, 34(6), 1115–1124.
Nicholson, K. (1993). Geothermal Systems, Springer.
Saptadji, N. M. (2009). Karakterisasi reservoir panas bumi. Training Advanced Geothermal Engineering, 6–17.
Suhartono, N. (2012). Pola sistim panas dan jenis geothermal dalam estimasi cadangan daerah Kamojang. MTG, 5(2). Retrieved from http://jurnal.upnyk.ac.id/index.php/mtg/article/view/246
Utami, P. (1999). Pemanfaatan Energi Panasbumi Secara Langsung. Energi.
Wahyuningsih, R. (2005). Potensi dan wilayah kerja pertambangan panas bumi di Indonesia. Bandung, Badan Geologi.
Zhang, X., Guo, Q., Li, J., Liu, M., Wang, Y. and Yang, Y. (2015). Estimation of reservoir temperature using silica and cationic solutes geothermometers: a case study in the Tengchong geothermal area. Chinese Journal of Geochemistry, 34, 233–240. http://dx.doi.org/10.1007/s11631-015-0037-7
Author Biographies
Rifa Lihayati, Department of Physics, Universitas Andalas, Limau Manis, Padang 25163, Indonesia
Muldarisnur Muldarisnur, Department of Physics, Universitas Andalas, Limau Manis, Padang 25163, Indonesia
Marzuki Marzuki, Department of Physics, Universitas Andalas
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Copyright (c) 2022 Rifa Lihayati, Muldarisnur Muldarisnur, Marzuki Marzuki
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