Fault controlled geochemical properties in Lahendong geothermal reservoir Indonesia
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Appelo, C.A.J.: Principles , caveats and improvements in databases for calculating hydrogeochemical reactions in saline waters from 0 to 200 ° C and 1 to 1000 atm. Appl. Geochemistry 55, 62–71 (2015)
Arnorsson, S.: The use of mixing models and chemical geothermometers for estimating underground temperatures in geothermal systems. J. Volcanol. Geotherm. Res. 23, 299–335 (1985)
Arnorsson, S.: Arnorsson-Isotopic and chemical techniques in geothermal exploration, development and use. Report, International Atomic Energy Agency, Vienna (2000)
Arnorsson, S., Stefansson, A., Bjarnason, J.O.: Fluid-Fluid Interactions in Geothermal Systems. Rev. Mineral. Geochem. 65, 259–312 (2007). doi: 10.2138/rmg.2007.65.9
Belsky, A., Hellenbrandt, M., Karen, V.L., Luksch, P.: New developments in the Inorganic Crystal Structure Database (ICSD): accessibility in support of materials research and design. Acta Crystallogr. B. 58, 364–369 (2002) doi: 10.1107/S0108768102006948
Bergerhof, G., Brown, I.D.: Inorganic crystal structure database. Chrystallographic Database, International Union of Chrystallography (1987)
Brehme, M., Scheytt, T., Çelik, M., Dokuz, U.E.: Hydrochemical characterisation of ground and surface water at Dörtyol/Hatay/Turkey. Environ. Earth Sci. 63, 1395–1408 (2010). doi: 10.1007/s12665-010-0810-1
Brehme, M., Haase, C., Regenspurg, S., Moeck, I., Deon, F., Wiegand, B.A., Kamah, Y., Zimmermann, G., Sauter, M.: Hydrochemical patterns in a structurally controlled geothermal system. Mineral. Mag. 77, 767 (2013) doi: 10.1180/minmag.2013.077.5.2
Brehme, M., Moeck, I., Kamah, Y., Zimmermann, G., Sauter, M.: A hydrotectonic model of a geothermal reservoir—A study in Lahendong, Indonesia. Geothermics 51, 228–239 (2014). doi: 10.1016/j.geothermics.2014.01.010
Browne, P.R.L.: Hydrothermal alteration as an aid in investigating geothermal fields. Geothermics. 2, 564–570 (1970) doi: 10.1016/0375-6505(70)90057-X
Corsi, R.: Scaling and corrosion in geothermal equipment: problems and preventive measures. Geothermics. 15, 839–856 (1986)
Deon, F., Regenspurg, S., Zimmermann, G.: Geothermics Geochemical interactions of Al2O3 -based proppants with highly saline geothermal brines at simulated in situ temperature conditions. Geothermics. 47, 53–60 (2013)
Deon, F., Förster, H.-J., Brehme, M., Wiegand, B., Scheytt, T., Moeck, I., Jaya, M.S., Putriatni, D.J.: Geochemical/hydrochemical evaluation of the geothermal potential of the Lamongan volcanic field (Eastern Java, Indonesia). Geotherm. Energy. 3, 20 (2015)
Ellis, A.J., Mahon, W.A.J.: Chemistry and geothermal systems. Academic Press Inc, New York (1977)
Giencke, J.: Introduction to EVA. Bruker Cooperation, Billerica (2007)
Giggenbach, W.F.: Geothermal solute equilibria. Derivation of Na-K-Mg-Ca geoindicators. Geochim. Cosmochim. Acta. 52, 2749–2765 (1988). doi: 10.1016/0016-7037(88)90143-3
Hernandez Castaneda, M.C.: Characterization of silica precipitates formed at geothermal conditions. Universität Freiburg, Freiburg im Breisgau (2014)
John, L.: Hydrothermal alteration mineralogy in geothermal fields with case examples from Olkaria Domes geothermal field, Kenya. Report, UNU-GTP (2007)
Koestono, H.: Lahendong Geothermal Field, Indonesia: Geothermal model based on wells LHD-23 and LHD-28. Master-Thesis at University of Iceland (2010)
Kwiatek, G., Bulut, F., Bohnhoff, M., Dresen, G., Oates, S., Santos, P. A.: High-resolution analysis of seismicity induced at Berlín geothermal field, El Salvador, (2013). Geothermics, doi: 10.1016/j.geothermics.2013.09.008
Larson, A.C., Von Dreele, R.B.: GSAS—General Structure Analysis System. Los Alamos National Laboratory Report LAUR 86–748, University of California (2004)
Layman, E., Soemarinda, S.: The Patuha Vapor-Dominated Resource West Java, Indonesia. Proceedings of the 28th Workshop on Geothermal Reservoir Engineering, pp. 56–65. Stanford University, Stanford (2003)
Milsch, H., Priegnitz, M., Blöcher, G.: Permeability of gypsum samples dehydrated in air. Geophys. Res. Lett. 38, 6 (2011). doi: 10.1029/2011GL048797
Moeck, I., Dussel, M.: Fracture networks in Jurassic carbonate rock of the Algarve Basin (South Portugal): Implications for aquifer behaviour related to the recent stress field. IHA Sel. Pap. Ser. 9, 479–488 (2007)
Powell, T., Cumming, W.: Spreadsheets for geothermal water and gas geochemistry. Proceedings of the 35th Workshop on Geothermal Reservoir Engineering. Stanford University, Stanford (2010)
Parkurst, D., Thorstenson, D., Plummer, L.: PHREEQE, a computer program for geochemical calculations, US Geological Survey Water. Report, USGS (1980)
Parkhurst, D., Appelo, C.A.J.: Description of Input and Examples for PHREEQC Version 3a Computer Program for Speciation, Batch-reaction, One-dimensional Transport, and Inverse Geochemical Calculations. Model. Tech. B. 6 497 (2013)
Robinson, D., Peng, D., Chung, S.: The development of the Peng-Robinson equation and its application to phase equilibrium in a system containing methanol. Fluid Phase Equilib. 24, 25–41 (1985). doi:10.1016/0378-3812(85)87035-7
Reyes, A., Giggenbach, W., Saleras, J.: Petrology and Geochemistry of Alto Peak, a Vapor-cored Hydrothermal System, Leyte Province, Philippines. Geothermics 22, 479–519 (1993)
Schön, J.H.: Physical properties of rocks. Elsevier Ltd., Amsterdam (2004)
Siahaan, E.E., Soemarinda, S., Fauzi, A., Silitonga, T., Azimudin, T., Raharjo, I.B.: Tectonism and Volcanism Study in the Minahasa Compartment of the North Arm of Sulawesi Related to Lahendong Geothermal Field, Indonesia, in: Proceedings World Geothermal Congress 2005, Antalya, Turkey, 24–29 April 2005 (2005)
Sriwana, T., van Bergen, M.J., Varekamp, J.C., Sumarti, S., Takano, B., van Os, B.J.H., Leng, M.J.: Geochemistry of the acid Kawah Putih lake, Patuha Volcano, West Java, Indonesia. J. Volcanol. Geotherm. Res. 97, 77–104 (2000). doi: 10.1016/S0377-0273(99)00178-X
Surachman, S., Tandirerung, S.A., Buntaran, T., Robert, D.: Assessment of the Lahendong geothermal field, North Sulawesi, Indonesia, in: Proceeding Indonesian Petroleum Association, Sixteenth Annual Convention, October 1987. pp. 385–398 (1987)
Tanikawa, W., Shimamoto, T.: Comparison of Klinkenberg-corrected gas permeability and water permeability in sedimentary rocks. Int. J. Rock Mech. Min. Sci. 46, 229–238 (2009). doi: 10.1016/j.ijrmms.2008.03.004
Truesdell, A.H., Stallard, M.L., Trujillo, P.E., Counce, D., Janik, C.J., Winnett, T.L., Goff, F., Shevenell, L.: Interpretation of fluid chemistry from the PLTG-1 exploratory drill hole, Platanares. Honduras. Geotherm. Resour. Counc. Transactions. 11, 217–222 (1987)
Utami, P.: Hydrothermal alteration and the evolution of the Lahendong geothermal system, North Sulawesi, Indonesia. Dissertation, University of Auckland, Auckland (2011)
Utami, P., Siahaan, E.E., Azimudin, T., Browne, P.R.L., Simmons, S.F.: Overview of the Lahendong geothermal field, North Sulawesi, Indonesia: A progress report, in: Proceedings of the 26th NZ Geothermal Workshop 2004. pp. 1–6 (2004)
Wiegand, B.A., Brehme, M., Teuku, F., Amran, I.A., Prasetio, R., Kamah, Y., Sauter, M.: Geochemical and isotopic investigation of fluids from Lahendong geothermal field. Mineral. Mag. 77, 2491 (2013). doi: 10.1180/minmag.2013.077.5.23