COOLING OF THE SELFOSS GEOTHERMAL SYSTEM BY INFLOW OF COLD GROUNDWATER Jens Tómasson, National Energy Authority The stratigraphy of the Selfoss geothermal area is as follows; an upper zone which consists of a Recent lava flow underlain by glacial sediments down to a depth of 50— 70 m, and a lower zone which consists of Quaternary vol- canics. Cold groundwater flows freely in the Recent lava flow, but the lower zone contains the thermal water. Prior to pumping the thermal water issued from the lower zone up into the Recent lava flow. At the beginning of utilization of the geothermal area for domestic heating (1948) several shallow wells were sunk into the Recent lava and the thermal water extracted by pumps. Pumping created a pressure drop in the thermal water system in the lava causing an inflow of cold ground- water and a drastic cooling. In 1951 drilling was moved about 800 m from the initial wells; deeper drillholes sunk into the Quaternary strata, and the glacial sediments of the upper zone isolated by casing. Corrosion of the cas- ing in the upper zone has repeatedly caused inflow of cold groundwater into the geother- mal reservoir and to avoid this problem most of the earlier holes have been filled by cement or been recased. TILT MEASUREMENTS AND RATE OF MAGMA INJECTION AT KRAFLA Eysteinn Tryggvason, Nordic Volcanological Institute Tilt observations at several locations in the Krafla region, North-Iceland since the sum- mer of 1976 show, that during inflation of the Krafla magma chamber, the rate of inflation and the shape of the surface bulge is nearly constant. The shape of the bulge is in good agreement to that predicted if a mass is in- jected into a small spherical “magma chamber” lying inside a homogeneous elastic half space. In such a model, the center of the spherial magma chamber must lie at a depth of 3.2 ± 0.3 km below a point near the south end of Leirhnjúkur to be in the best agreement with the tilt observations. The uncertainty of this location is about 500 meters. The tilt rate agrees with an inflow rate into the magma chamber of 4.6 m3/sec. or 0.4 million cubic meters per day. There is indication that this rate of inflow has increased slightly during the 15 months of observations from July 1976 to October 1977. SIGALDA HYDRO-POWER SITE, GEOLOGICAL STUDIES Elsa G. Vilmundardóttir, National Energy Authority Geological investigations in connection with the Sigalda Hydroelectric Project have almost solely been conducted by the National Energy Authority on behalf of the National Power Company. At the site the bedrock is composed of moberg and tillite from the last glacial epoch on hand and postglacial lavas and sedimentary deposits on the other. The powerhouse, headrace and tailrace canals are located in moberg and tillite, but the reservoir is mainly on lavas (Tungnaá lavas), which are overlain by sediments deposited in the previously existing lake, Krókslón. Studies during the last 2—3 years have led to a rev- ision of some details in the previously esta- blished history of lake Krókslón. It can now be considered fairly certain that the lake was emptied about 1100 years ago, at a consider- ably later date than previously assumed. Studies of faults and tectonic fractures have revealed that fractures of an easterly orien- tation are more frequent in the vicinity of Sigalda than in the adjoining areas to the east and west. 112 JÖKULL 28. ÁR

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