Maalämpöä voidaan käyttää energianlähteenä käyttöveden lämmityksessä ja lämmönjakojärjestelmissä, kuten lattialämmityksessä ja -viilennyksessä.

Ground source heating & cooling

Geothermal energy is renewable and cost-effective energy

Geothermal energy is a sustainable choice. It is a form of renewable thermal energy stored in the ground, in rock or in water, and it can be collected with heat pumps and piping systems. Geothermal heat is the reason the ground is clearly warmer than the air in the winter. Geothermal heat comes mostly from the sun’s energy. A smaller amount is geothermal energy generated from the breakdown of radioactive elements occurring deep within the earth. In Finland, the geothermal heat that comes from the sun’s energy only goes about 15 meters deep. This means that the heat from chambers drilled deep into rock is chiefly geothermal energy. Geothermal heat is not a limited resource, which means you do not need to worry about it running out – use it with a clear conscience.

Geothermal heat is suitable for all types of buildings

Geothermal heat can be used as an energy source for heating water and in heat distribution systems, such as in floor heating and cooling. Geothermal heat is suited to all types of buildings, from single-family homes to large commercial and industrial buildings. Geothermal heat is very popular in Finland. Ground heat pumps have been the most common choice for heating systems in new homes since the turn of the century. It is ease and affordable to use.

Advantages of geothermal heat compared to other solutions

When geothermal heat is used as an energy source for heat regulation systems, providing a comprehensive solution for both heating and cooling. Dual-purpose devices are more efficient and easier to install than separate heating and cooling systems. Its advantage over many other solutions is that the equipment needs very little space.

Geothermal heat is also an affordable choice

Although the investment costs for geothermal heat systems are slightly higher than conventional heating and cooling equipment, the return on investment is short, particularly when used in a low temperature heat distribution systems such as floor heating and cooling. In the long run, geothermal heat is more affordable than district heating in many ways. The installation price depends on the depth of the drill and the model of the geothermal heat pump, among other factors. The annual operating costs for geothermal heat in single-family homes are typically in the range of a few hundred euros.

How is geothermal heat environmentally friendly?

Renewable energy source
An unlimited amount of geothermal energy is available for heating and cooling. Using geothermal heat reduces greenhouse gas emissions.
Maalämpöä on saatavilla rajattomasti lämmitykseen ja jäähdytykseen.
Safe and versatile
Geothermal technology is technically advanced, and it has been used in heating and cooling for more than 50 years. Geothermal energy can be used together with other energy sources.
Maalämpötekniikka on teknisesti kehittynyttä, ja sitä on käytetty lämmittämiseen ja jäähdyttämiseen yli 50 vuoden ajan
Efficient
The answer for all energy needs: heating and cooling, and storing hot water and energy. Geothermal heat is the only sustainable energy source that is able to supply a large portion of the daily energy usage of a building.
Maalämpö on ainoa kestävä energianlähde, jolla voi kattaa suuren osan käyttöenergiasta.
Cost-effective
Local energy that is not affected by external influences and fluctuating exchange rates. Geothermal heat improves industry competitiveness, which can speed up regional development and create new employment opportunities.
Lähienergiaa, joka on ulkoisista vaikuttajista ja valuuttakurssien vaihtelusta riippumaton.
Insulated geothermal pipes
Uponor’s insulated geothermal pipes are suitable for horizontal assemblies between the heat sink and heat pump. The protective layers are made of PEH. Insulation uses closed cell PEX cell foam, the flow pipe uses PE. Pipe sizes 40/68 are available with three different coil lengths (50, 100 and 200 m). The maximum allowed pressure is 10 bar, the minimum installation depth is 300 mm. Installations can use Ecoflex end caps and bushing packages for lead-throughs.
Heat collection pipes
Uponor Geo Vertis geothermal heat pipes are made from PE100 (PN 10). The pipes are available as doubled coils. Includes return bends.
Energy piles

Uponor Geo Palix energy piles are foundation piles that are designed to leverage geothermal heat. Energy piles can cover most of the energy usage in a building. If the load is high, the system can be supplemented with geothermal chambers.

The solution is suitable for areas where the soil type necessitates the use of foundation piles and heating and/or cooling is required depending on the time of the year. The heating system uses the energy that is stored in the earth, while the low temperature of the ground is used for cooling. In the summer, the cooling system collects the building's excess heat back into the ground, which keeps the ground's temperature level suitable for energy production. Energy piles are best suited to low-temperature heat distribution systems, such as floor heating and cooling systems.

A reasonable investment

Compared to traditional heating and cooling systems, energy pile investments pay for themselves in approximately 5 to 8 years. The quick return on investment stems from the system having no maintenance costs, merely the initial costs of foundation. A correctly installed energy pile system lasts for the entire life cycle of the building.

Uponor heat collection system

The PE-Xa U collection circuits scaled and designed by Uponor are embedded into the piles and connected to the manifolds installed in the floors. The collection circuit pipes are 25 x 2.3 mm in size. To minimise heat loss, an insulated connecting pipe is installed between the piles and the manifolds. Trunk lines to the heat distribution room use insulated pipes. The systems uses commonly used heat transfer materials.

In the design phase, Uponor provides an estimate of the collected energy output and delivers the system dimensions according to the actual foundation plan. In addition, Uponor delivers all the components required for installing the energy piles, including collection pipes, trunk lines, manifolds and accessories.

For more information, see the video: Uponor energy piles

This is how energy from the ground can be efficiently transferred to a building's heat distribution system.