The application of geothermal energy:
✔ Clean
✔ Cheap
✔ Inexhaustible
✔ Horizon Friendly
✔ Low maintenance
✔ Scalable
The universally applicable system developed by NotusPid can be applied on a very small scale as well as on an industrial scale. The energy can be used both directly and indirectly. This makes geothermal energy an extremely flexible source of energy.
How does the system work?
What is geothermal energy and what makes the NotusPid system so special. A short explanation of how geothermal energy works and a brief description of how the system we developed works
low grade (shallow) geothermal energy
When installed to depths of 1200 meters, ambient heat will generally not exceed 40-50 degrees Celsius. Thus, to use the heat for heating purposes, a heat pump is usually needed to obtain the required temperature. This is indirect geothermal energy. NotusPid offers the necessary solutions for this
high grade (deep) geothermal energy
With an ambient temperature of 75 degrees Celsius or higher, geothermal heat can often be used directly. Via a heat exchanger this heat is transferred to a medium which can be heated directly.
With circulation temperatures of 125 degrees Celsius and above, electricity can also be generated.
Scientific foundation
The system developed by NotusPid is carefully constructed and based entirely on physical processes. The so-called thermodynamic processes. The system is underpinned by a simulation model with which the yield, lifespan and profitability can be calculated with a high degree of certainty for every situation.
Geothermal energy and steam production
NotusPid has entered into cooperation with third parties enabling steam to be produced for industrial processes without going to extreme depths (6000 meters or more). Read more about the application possibilities and the potential of the geothermal solution.
Geothermal energy and desalination
It is not only the development of non-fossil energy that is a priority. The production of drinking water is also becoming increasingly important due to increasing scarcity of directly usable drinking water. Desalination of seawater is energy consuming but by pairing it with geothermal energy this can be done responsibly and affordably. How?