Náttúrufræðingurinn

Volume

Náttúrufræðingurinn - 1981, Page 60

Náttúrufræðingurinn - 1981, Page 60
quartz solubility and borate buffer solutions to 350°C. Geochim. Cosmo- chim. Acta 38: 1651 —1664. Truesdell, A.H. 1975. Geochemicai techni- ques in exploration, summary of section III. I riti Second United Nations Symposium on the Development and Use of Geothermal Resources, San Francisco, 20. — 29. maí, 1975 1: 53 — 79. Truesdell, A.H. & B.F.Jones. 1974. WATEQ, a computer program for calculating chemical equilibria of natural waters. Jour. Res. U.S. Geol. Surv. 2: 233-248. Truesdell, A.H. & J.R. Hulston. 1980. Isotopic evidence on environments of geothermal systems. I Handbook of Environmental Isotopes Geochemistry. Ed. P. Fritz og J. Ch. Fontes, Elsevier Publishing Com- pany, Amsterdam. 1A The terrestrial environment, 179—226. Walther, J.V. & H.C. Ilelgeson. 1977. Cal- culation of the thermodynamic pro- perties of aqueous silica and the solu- bility of qurtz and its polymorphs at high pressures and temperatures. Amer. J. Sci. 277: 1315-1351. Walther, J.V. & H.C. Helgeson. 1979. Calcu- lation of the thermodynamic properties of aqueous silica and the solubility of quartz and its polymorphs at high pres- sures and temperatures — rcply. Araer. J. Sci. 279: 1078-1082. SUMMARY Chemical geothermometers by Stefán A rnórsson Science Institute University of Iceland, Reykjavík The development of chemical geo- thermometry in geothermal investigations is reviewed. A summary is given of the as- sumptions, approximations and limitations involved in applying chemical geothermo- meters to evaluate temperature conditions in geothermal systems. The application of chemical geothermometry to thermal waters which have mixed with cold waters in the upflow is also included. Careful selection of drillhole data has allowed correlation of silica concentrations and Na/K ratios in thermal waters with measured aquifer temperatures. The results yield new temperature functions for the silica and Na/K geothermometers in the range 25-180°C and 25-250°C re- spectively (equations lb, lc and 3b in table II). With respect to silica the new tempera- ture function compares well with the chalcedony solubility data of Fournier (1977). Above 150°C the new Na/K temperature function compares well with that of Ellis and White (see Truesdell, 1975) and it compares well witli equilibrium between solution, low albite and microcline over the whole temperature range. Il is shown that the Na/K geothermo- meter is always superior to the Na-K-Ca geothermometer. It is necessary to correct the analysed silica concentrations in the waters for the fraction which is dissociated when the water pH is greater than about 8.5 (referring to measurement at 20°C). For very high pH waters (greater than 10) it is recommended to make this correction by making use of the temperature dependent relation of Na + /H + in geothermal waters (see equation 5 in table II) and the analysed sodium concentration rather than the measured pH (see equation (11) in text and equation lc in table II). 138

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