Es difícil precisar en qué medida la calefacción geotérmica disminuye el consumo, ya que depende de multitud de factores tales como el tipo y uso del edificio, el clima, el dimensionado, o la instalación, pero el ahorro puede rondar en torno al 40-60% frente a un sistema de bomba de calor tradicional que intercambie con el ambiente.[5]​.

Disadvantages

The main drawback of this system is its still high installation cost. Manufacturers announce paybacks of between 4 and 8 years

,[5]​ but if the available data is compared,[2]​[6]​ the investment in a geothermal installation compared to a typical diesel one seems to take around 15 years to pay off.

However, it must be taken into account that geothermal eliminates the need for a second air conditioning installation, as well as the aid and subsidies that can be received.

In general, it can be said that this type of heating will be more suitable the larger the building and the longer its estimated time of use.

.[5]​ Both factors that will limit the economic impact of the installation.

The most economical installations are horizontal ones, but they require space that is not always available. Vertical installations, which avoid the problem, have higher prices, and their economic justification decreases.

Advantages

Although the figure is probably exaggerated, an energy saving compared to electric heating of 75% is announced,[5]​ or in other words, for 1 kWh of electricity consumed, the equivalent of 4 kWh is achieved[7]​[2]​.

Compared to natural gas heating, savings are announced that fluctuate between 32%[2]​ and 60%[5]​ As the pump moves 3 to 5 times more energy than the electricity it consumes, the total net production is much greater than consumption. This results in net thermal efficiencies greater than 100% for most electrical sources. Combustion heating stoves and electric heaters can never exceed 100% efficiency, but heat pumps provide extra energy that they extract from the ground.

Furthermore, for these reasons, this heating system has been classified as renewable energy in the White Paper on Renewable Energy of the European Union,[5]​ and therefore can benefit from the different existing subsidy programs.

As a result of lower energy consumption, CO2 emissions are also reduced.

A study states that the massive use of this heating system in the residential and services sector would reduce the global emission of CO2 into the atmosphere by 6%[6]​.

The heat pump is no longer in contact with the outside, so its useful life is extended. Durations of between 25 and 50 years are announced.[5]​.

There is no longer a need to place a compressor and fans outside, making the system much quieter.

For the same reasons. An external exchanger is not needed.

The risk of legionellosis is eliminated as there are no condensation towers.

La instalación en un sistema doméstico puede aumentar en complejidad si además de usarse como calefacción se utiliza para producción de ACS, climatización de piscinas, etc. También existen redes muy complejas que dan servicio a barrios o distritos, pero toda instalación consta fundamentalmente de estos tres elementos:.

Llamada Bomba de calor geotérmica (BCG) o por sus siglas en inglés (GHP).

Existen monofásicas y trifásicas, así como monocompresor y bicompresor.

Normalmente se ubica en un cuarto interior cerrado.

El que está en contacto con el terreno.

El líquido que circula por el circuito suele ser agua o una mezcla de agua con anticongelante.

El que intercambia el calor con el interior del edificio. Puede ser por suelo radiante, muro (también denominado zócalo) radiante, o incluso radiadores convencionales de aluminio.[6]​.

Typologies

They are classified depending on the external circuit.

Extension between 1.5 and 2 times the surface to be heated[7]​

According to the different installers, the depth of the circuit ranges between 60 cm and 5 meters, although it is usual for them to be buried around 1 meter.

This installation is less efficient, since at this depth the terrain is affected by the weather, but in exchange the installation cost is lower, which makes it more interesting from an economic point of view.[5]​

If there is not much land available, the tube can be placed in a spiral, in an arrangement called slinky.[5]​

The tubes can be made of cross-linked polypropylene, rigid polyethylene, or low-density polyethylene[7].

If there is no land available for the horizontal network. More expensive, but benefits from a constant temperature throughout the year. If you go down to sufficient depth, the heating performance increases, since the earth's temperature gradient is 3 °C every 100 meters of depth.[2]​

According to the installers, it can be drilled from 30 m to 150 m, or even more.[5]​.

The tubes used are made of polyethylene.

In the presence of an aquifer or underground streams, instead of recirculating the fluid, excess water can be returned to the earth. This option is the most interesting from an economic point of view.[5]​.

When a large body of water such as a river or lake is available, the tubes can be submerged. It is a very interesting option because it is cheap and very efficient.

Es difícil precisar en qué medida la calefacción geotérmica disminuye el consumo, ya que depende de multitud de factores tales como el tipo y uso del edificio, el clima, el dimensionado, o la instalación, pero el ahorro puede rondar en torno al 40-60% frente a un sistema de bomba de calor tradicional que intercambie con el ambiente.[5]​.

Disadvantages

The main drawback of this system is its still high installation cost. Manufacturers announce paybacks of between 4 and 8 years

,[5]​ but if the available data is compared,[2]​[6]​ the investment in a geothermal installation compared to a typical diesel one seems to take around 15 years to pay off.

However, it must be taken into account that geothermal eliminates the need for a second air conditioning installation, as well as the aid and subsidies that can be received.

In general, it can be said that this type of heating will be more suitable the larger the building and the longer its estimated time of use.

.[5]​ Both factors that will limit the economic impact of the installation.

The most economical installations are horizontal ones, but they require space that is not always available. Vertical installations, which avoid the problem, have higher prices, and their economic justification decreases.

Advantages

Although the figure is probably exaggerated, an energy saving compared to electric heating of 75% is announced,[5]​ or in other words, for 1 kWh of electricity consumed, the equivalent of 4 kWh is achieved[7]​[2]​.

Compared to natural gas heating, savings are announced that fluctuate between 32%[2]​ and 60%[5]​ As the pump moves 3 to 5 times more energy than the electricity it consumes, the total net production is much greater than consumption. This results in net thermal efficiencies greater than 100% for most electrical sources. Combustion heating stoves and electric heaters can never exceed 100% efficiency, but heat pumps provide extra energy that they extract from the ground.

Furthermore, for these reasons, this heating system has been classified as renewable energy in the White Paper on Renewable Energy of the European Union,[5]​ and therefore can benefit from the different existing subsidy programs.

As a result of lower energy consumption, CO2 emissions are also reduced.

A study states that the massive use of this heating system in the residential and services sector would reduce the global emission of CO2 into the atmosphere by 6%[6]​.

The heat pump is no longer in contact with the outside, so its useful life is extended. Durations of between 25 and 50 years are announced.[5]​.

There is no longer a need to place a compressor and fans outside, making the system much quieter.

For the same reasons. An external exchanger is not needed.

The risk of legionellosis is eliminated as there are no condensation towers.

La instalación en un sistema doméstico puede aumentar en complejidad si además de usarse como calefacción se utiliza para producción de ACS, climatización de piscinas, etc. También existen redes muy complejas que dan servicio a barrios o distritos, pero toda instalación consta fundamentalmente de estos tres elementos:.

Llamada Bomba de calor geotérmica (BCG) o por sus siglas en inglés (GHP).

Existen monofásicas y trifásicas, así como monocompresor y bicompresor.

Normalmente se ubica en un cuarto interior cerrado.

El que está en contacto con el terreno.

El líquido que circula por el circuito suele ser agua o una mezcla de agua con anticongelante.

El que intercambia el calor con el interior del edificio. Puede ser por suelo radiante, muro (también denominado zócalo) radiante, o incluso radiadores convencionales de aluminio.[6]​.

Typologies

They are classified depending on the external circuit.

Extension between 1.5 and 2 times the surface to be heated[7]​

According to the different installers, the depth of the circuit ranges between 60 cm and 5 meters, although it is usual for them to be buried around 1 meter.

This installation is less efficient, since at this depth the terrain is affected by the weather, but in exchange the installation cost is lower, which makes it more interesting from an economic point of view.[5]​

If there is not much land available, the tube can be placed in a spiral, in an arrangement called slinky.[5]​

The tubes can be made of cross-linked polypropylene, rigid polyethylene, or low-density polyethylene[7].

If there is no land available for the horizontal network. More expensive, but benefits from a constant temperature throughout the year. If you go down to sufficient depth, the heating performance increases, since the earth's temperature gradient is 3 °C every 100 meters of depth.[2]​

According to the installers, it can be drilled from 30 m to 150 m, or even more.[5]​.

The tubes used are made of polyethylene.

In the presence of an aquifer or underground streams, instead of recirculating the fluid, excess water can be returned to the earth. This option is the most interesting from an economic point of view.[5]​.

When a large body of water such as a river or lake is available, the tubes can be submerged. It is a very interesting option because it is cheap and very efficient.