Identifying potential geothermal reservoirs in Denmark
Autor: | Torben Bidstrup, Lars Henrik Nielsen, Anders Mathiesen |
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Rok vydání: | 2010 |
Předmět: | |
Zdroj: | Geological Survey of Denmark and Greenland Bulletin. 20:19-22 |
ISSN: | 1604-8156 1904-4666 |
DOI: | 10.34194/geusb.v20.4890 |
Popis: | Concerns about climate change have led to increased interest in geothermal energy as one way of reducing the consumption of fossil fuels and thus limit CO2 emissions. Use of geothermal energy is based on well-established technologies, a high degree of security of supply, and little visual or noise inconvenience. More than one hundred plants have been established in Europe. There is a large potential for using geothermal energy from the Danish subsurface, as first pointed out by Balling (1976). Geothermal energy is highly suitable for district heating systems and is expected to cover a large part of the demand for district heating in the future. Two Danish geothermal plants, the Thisted plant in northern Jylland and the Margretheholm demonstration plant near Copenhagen (Fig. 1), have shown that it is possible to produce large amounts of warm water for district heating. Only 5–10% of the total energy output from the plant is used to extract the heat from the subsurface by pumping warm formation water to the surface and returning it to the subsurface in a closed system. The plants use absorption warmth pumps, which need steam and hence give rise to consumption of (fossil) fuel. Both Danish plants have two wells, a production well and an injection well in which the cooled formation water is returned to the geological reservoir at about 1 km away from the production point, in order to avoid mixing of warm and cold water (Fig. 2). Geothermal energy can also be used for electricity production, but Danish subsurface tem-peratures are currently not believed to be sufficiently high to produce electricity directly. |
Databáze: | OpenAIRE |
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