The increasing need to replace current non-renewable energy sources is a reality. Although in past times, the problem of abusing these fossil reserves had not yet been realized, society is becoming more and more aware. However, there are still various political, economic or even social interests that are holding back the full development of technologies that allow experimentation with other forms of energy.
In today's article, in Green Ecologist we are going to talk about a class of these energies: geothermal energy, with special emphasis on how geothermal energy works and what examples are already developed.
The Earth's interior is organized in different layers with a nucleus that is like an incandescent mass that radiates from the interior of the Earth to the exterior and, as we go deeper into it, the temperature will increase by 2 to 4ºC for every 100 meters. In this way, the water in the depths of the Earth's core is at a very high temperature and pressure, as this water comes out towards the earth's surface, it will experience a progressive change of state to water vapor and will come out at great pressure. , in the form of a jet or as a hot spring.
It is possible to take advantage of these water sources to produce energy, this is the geothermal energy. Logically, it does not have the energy potential of solar energy, but it can be exploited industrially to produce energy as heating, for greenhouses or for aquaculture.
In order to access that source of hot water from the subsoil, it is necessary to do perforations on the surface. These holes are usually between 10 and 15 centimeters in diameter and their depth depends on several factors, such as the dimensions of the space to be heated or the geological conditions of the terrain to be drilled.
Inside these holes, we have geothermal probes (like a system of pipes made of polyethylene, normally) completely sealed and filled with circulating water or antifreeze liquid. It is in this piping system where the heat exchange between both systems.
It is a closed system, so when the liquid descends to depth, it heats up and rises again to operate a pump and that is where it gives up its heat to the refrigerant and the medium used for heating. This heat exchange takes place at a depth of between 50 and 100 meters. The more water the soil layer contains underneath the hole, the greater the heat exchange. It is for this reason that water tables are drilled (The water it contains is not used, but its temperature).
There are also horizontal pipe systems, instead of vertical ones. However, these systems are less efficient, since they require a large surface area and being shallow, they do not obtain as much energy and it is more subject to fluctuations.
The geothermal energy sources They may be:
The exploitation of this type of energy began in Larderello (Italy) in 1904 and since then it has been present in a large number of countries, mainly volcanic, What:
Currently, the world's largest power in geothermal energy is Iceland, because it is an eminently volcanic country, where 99% of the houses use this type of energy, many being ecological and self-sufficient. In the United States, one power is the state of California, which supplies up to 90% of the country's geothermal energy.
In Spain, geothermal energy is important in greenhouses and spas in Ourense or Murcia. Also, it is said that Galicia may be one of the first communities to use this energy as a means of heating or air conditioning.
If you want to read more articles similar to How Geothermal Energy Works, we recommend that you enter our category of Renewable Energies.