| Title | Hydrothermal Model of the Momotombo Geothermal System, Nicaragua |
|---|---|
| Authors | M. P. Verma, E. Martinez, M. Sanchez, K. Miranda, J. Y. Gerardo, L. Araguas |
| Year | 1996 |
| Conference | Stanford Geothermal Workshop |
| Keywords | |
| Abstract | The Momotombo geotherinal field is situated on the northern shore of Lake Managua at the foot of the active Momotombo volcano. The field has been producing electricity since 1983 and has an installed capacity of 70 MWe. The results of geological, geochemical and geophysical studies have been reported in various internal 'reports. The isotopic studies were funded by the International Atomic Energy Agency (IAEA), Vienna to develop a hydrothermal model of the geothermial system. The chemical and stable isotopic data (6'*0 and 6D) of the geothermal fluid suggest that the seasonal variation in the production characteristics of the wells is related to the rapid infiltration of local precipitation into the reservoir. The annual average composition of Na', K' and Mg2+ plotted on the Na- K-Mg triangular diagram presentcd by Giggenbach (1988) to identify the state of rock-water interaction in geothermal reservoirs, sho\~s that the fluids of almost every well are shifting towards chemically immature water due to resenroir exploitation. This effect is prominent in wells Mt-2. Mt-12, Mt-22 and Mt-27. The local groundwaters including surface water from Lake Managua have much lower tritium concentrations than sonic of the geothermal well fluids, which have about 6 T.U. The high-tritium wells are located along a fault inferred froin a thermal anomaly. The tritium concentration is also higher in fluids from wells close to the lake. This could indicate that older local precipitation waters are stored in a deep layer within the lake and that they are infiltrating into the geothermal reservioir. |