POTENSI KANDUNGAN UNSUR KIMIA EKONOMIS PADA LARUTAN PANAS BUMI DENGAN STUDI KASUS DI PLTP DIENG, KABUPATEN WONOSOBO  DAN KABUPATEN BANJARNEGARA, PROVINSI JAWA TENGAH:

Sabtanto Joko Suprapto; Suparno; Umi Yuliatin

doi:10.47599/bsdg.v15i2.299

Sabtanto Joko Suprapto Politeknik Energi dan Pertambangan Bandung
Suparno Politeknik Energi dan Pertambangan Bandung
Umi Yuliatin Politeknik Energi dan Mineral Akamigas

DOI: https://doi.org/10.47599/bsdg.v15i2.299

Keywords: Potency, economic chemicals element, geothermal, Dieng

Abstract

The Geothermal fluid has a very high content of dissolved elements. Geochemical methods are used to determine the potential indication of dissolved economic elements. Geothermal exploration has been carried out throughout Indonesia, mainly by the Geological Agency. The exploration result in the existence of hot spring data by analyzing SiO₂, Al, Fe, Ca, Mg, Na, K, Li, As, NH₄, B, F, Cl, SO₄, HCO₃, and CO₂. Base on the secondary data of 256 locations of hot spring in Indonesia that were statistically analyzed, an overview of the association of economic elements and impurities elements is obtained. Dieng Geothermal Power Plant with that has recuring problem of silica scale formation, becomes an interesting object as a case study of the potential of dissolved economic elements. The increase in dissolved content in geothermal fluids apart from naturally occurring, is triggered even more strongly by the geothermal power plant operating system, which changes the liquid phase to the vapor phase, hence the remaining liquid phase more concentrated. The potential content of economic chemical elements is determined by discharge measuring of the remaining liquid phase produced and the results of the analysis of the element concentration dissolved. The results of geochemical data clustering of hot springs obtained four elemental association, the association of SiO₂-F, Al-Fe-SO₄, Ca-Mg-Cl-Na-K, and Li-B-HCO₃. Dissolved lithium content is high in several geothermal areas in Indonesia, found in hot springs with chloride type fluids. The brine produced from the reservoir at the Dieng Geothermal Power Plant is from a meteoric type fluid that has intensively reacted with the surrounding rock and a magmatic type fluid. The remaining brine that is from several separators and comes out through the silencer, at the Dieng Geothermal Power Plant has a total discharge of 457.1 m³/hour, contains high levels of several elements, lithium 77.31-99.4 mg/l, silica 1109.25-1220.9 mg/l, boron 404.16-589.4 mg/l, potassium 2532.2-4536.5 mg/l, and manganese 5.49-15.82 mg/l.

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References

Bakane, P.A., 2013. Overview of Extraction of Mineral/Metals With The Help of Geothermal Fluid. Proceedings Thirty-Eighth Workshop on Geothermal Reservoir Engineering Stanford University, Stanford, California, February11-13, 2013 SGP-TR-198.

Bloomquist, R.G., 2006. Economic Benefits of Mineral Extraction From Geothermal Brines. Washington State University Extension. Washington.

Bourcier, W.L., Lin, M., Nix, G., 2005. Recovery of Minerals and Metals from Geothermal Fluids. UCRL-CONF-215135. 2003 SME Annual Meeting. Cincinnati.

Dahlan, Supeno, Nahar, K., Hendaryanti, L., Suhandjaja, 2011. Survei Pendahuluan Geologi dan Geokimia Daerah Panas Bumi Kabupaten Posos provinsi Sulawesi Tengah. Pusat Sumber Daya Geologi. Bandung.

Glassley, W.E., 2015. Geothermal Energy: Renewable Energy and the Environment. 2nd Edition, Taylor & Francis Group, LLC, New York.

Hickson, C., & Coolbaugh, M., 2017. Do Geothermal Systems Play a Role in Lithium Brine Enrichment in Nevada Playas?. GRC Transactions, Vol. 41, 2017. Vancouver.

Kruger, N. 2015. A ”Rare” Opportunity. https://www.dmr.nd.gov/ndgs/. Diunduh 28 September 2015.

Kusnadi, D., Supeno, Kencanawati, L., Hendaryanti, L., 2009. Survei Terpadu Geologi dan Geokimia Daerah Panas Bumi Bituang, Kabupaten Toraja, provinsi Sulawesi Selatan. Pusat Sumber Daya Geologi. Bandung.

Kusnadi, D, Wibowo, A.E.A., Rohani, A., Dinarsih, D., Purwoto, E., Kencanawati, L., 2011. Survei Terpadu Geologi dan Geokimia Daerah Panas Bumi Sumani, Provinsi Sumatera Barat. Pusat Sumber Daya Geologi. Bandung.

Metcalfe, I., 2017. Tectonic evolution of Sundaland. Bulletin of the Geological Society of Malaysia, Volume 63, June 2017, pp. 27 – 60.

Mroczek, E., Climo, M., Li, Y., Evans1, D., Brian Carey., B., and Wei Gao, W., 2015. From Waste to Wealth: Mineral Extraction from Geothermal Brines. Proceedings World Geothermal Congress 2015, Melbourne, Australia, 19-25 April 2015. https://www.researchgate.net/publication/, diunduh tanggal 29 Juli 2019.

Mroczek, E., Dedual, G., Graham, D., Bacon, L., 2015. Lithium Extraction from Wairakei Geothermal Fluid using Electrodialysis. Proceedings World Geothermal Congress 2015 Melbourne, Australia, 19-25 April 2015. https://www.researchgate.net/publication/, diunduh tanggal 29 Juli 2019.

Mulyadi, E., Sri Widodo, Yushantarti, A., Wahyuningsih, R., Marpaung, H., dkk., 2010. Kajian Non Vulkanik Panas Bumi di Pulau Sulawesi Bagian Tengah. Pusat Sumber Daya Geologi. Bandung.

Neupane, G., dan Wendt, D.S., 2017. Assessment of Mineral Resources in Geothermal Brines in the US. Proceedings, 42nd Workshop on, Geothermal Reservoir Engineering, Stanford University, Stanford, California,, February 13-15, 2017 SGP-TR 212, https://www.researchgate.net/publication/, diunduh tanggal 29 Juli 2019.

Nicholson, K., 1993. Geothermal Fluids, Chemistry and Exploration Techniques. Springer-Verlag, Berlin.

Patterson, M.C.L., 2006. Geotermal Brines-High Value Mineral Extraction. Advanced Ceramics Research, 3292 East Hemisphere Loop, Tucson, AZ 85706, USA.

Pohan, M.P., Herman, D.Z., Hutamadi, R. 2008. Penelitian Mineral Ikutan Pada Lapangan Panas Bumi Daerah Dieng, Kabupaten Banjarnegara, Provinsi Jawa Tengah. Pusat Sumber Daya Geologi. Bandung.

Prasetio, R., Abidin1, Z., Yoki Yulizar, Y., 2010. Isotope and Gas Geochemistry of Dieng Geothermal Field, Indonesia. Proceedings World Geothermal Congress 2010 Bali, Indonesia, 25-29 April 2010.

Ramadhan, Y., K. Channel1, K., dan and N. R. Herdianita, N.R., 2013. Hotwater Geochemistry for Interpreting The Condition of Geothermal Reservoir, Dieng Plateau Case, Banjarnegara-Wonosobo Regency, Central Java. Indonesian Journal of Geology, Vol. 8 No. 2 Juni 2013.

Sanjuan, B., dan Millot, R., 2009. Bibliographical Review About Na/Li Geothermometry and Lithium Isotope Aplied to Worldwide Geothermal Water. BRGM RP-57346-FR, report. Diunduh 22 Desember 2019.

Setiawan, D.I., 2014. Survei Pendahuluan Geologi dan Geokimia Panas Bumi Kabupaten Gorontalo, Boalemo, dan Pohuwato, provinsi Gorontalo. Pusat Sumber Daya Geologi. Bandung.

Sirait, P., Ridwan, R.H., Battistelli, A. 2015. Reservoir Modeling for Development Capacity of Dieng Geothermal Field, Indonesia. Proceedings. Fourtieth Workshop on Geothermal Reservoir Engineering Stanford University, Stanford, California.

Sugiyono, 2006. Statistik untuk Penelitian. CV. Alfabeta. Bandung. Cetakan ke 10.

Sukhyar, R., Gurusinga, C.K., Kasbani, Munandar, A., Dahlan, dkk., 2014. Potensi dan Pengembangan Sumber Daya Panas Bumi di Indonesia. Badan Geologi, Bandung.

Sundoro, H., 2009. Survei Terpadu Daerah Panas Bumi Limbong, Kabupaten Limbong, Provinsi Sulawesi Selatan. Pusat Sumber Daya Geologi. Bandung.

POTENSI KANDUNGAN UNSUR KIMIA EKONOMIS PADA LARUTAN PANAS BUMI DENGAN STUDI KASUS DI PLTP DIENG, KABUPATEN WONOSOBO DAN KABUPATEN BANJARNEGARA, PROVINSI JAWA TENGAH

THE POTENTIAL CONTENT OF ECONOMIC CHEMICALS ELEMENT IN GEOTHERMAL SOLUTIONS WITH A CASE STUDY IN THE DIENG GEOTHERMAL POWER PLANT, WONOSOBO REGENCY AND BANJARNEGARA REGENCY, CENTRAL JAVA PROVINCE

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