GEOEG provides services for the design, implementation and optimisation of energy geostructures.
SDG’s of application
The Solar Impulse Efficient Solution label seeks to bridge the gap between ecology and economy, bringing together protection of the environment and financial viability to show that these solutions are not expensive fixes to problems, but rather opportunities for clean economic growth.
Offers from GEOEG
We provide consulting for the implementation of energy geostructures to various actors and construction projects.
We provide building contractors, municipalities, engineering and architecture firms as well as construction companies with the best integrated solutions for the renewable energy supply and structural support to any type of built environment: households, high-rise buildings schools, hospitals, parkings, metro lines, airport runaways, and much more.
We analyse the complete behaviour and performance of energy geostructures applications.
We analyse the thermo-hydro-mechanical behaviour as well as the energy, geotechnical and structural performance of energy geostructures. We cover the response of all types of energy geostructures, e.g., energy piles, energy walls. energy slabs, energy anchors. The multiphysical, multidimensional analyses we perform (analytical and numerical) can cover from days to decades of energy geostructures operation.
We design energy geostructures systems with the most advanced and appropriate performance-based design procedures.
We design energy geostructures systems with the most advanced and appropriate performance-based design procedures. We can address the optimum energy control and operation of energy geostructures for the most efficient supply of thermal energy to our built environments. In addition to this, we can also ensure that the mechanical and thermal loads applied to energy geostructures as a consequence of their geothermal heat exchanger roles do not compromise the geotechnical and structural response of such elements over time.
We test, in the laboratory and on site, the materials and the energy geostructures we may be interested in.
We test, in the laboratory and on site, the materials and the energy geostructures we may be interested in, respectively, to corroborate the actual engineering behaviour we predict. Based on the results of our tests, we can determine the thermal potential of sites, everywhere they may be and we can also assess the implications of the geothermal operation of energy geostructures on their structural support role.
We monitor the systems we design for ensuring the best possible performance during the life-time of energy geostructures
We monitor the systems we design for ensuring the best possible performance during the life-time of the structures or structural systems that resort to energy geostructures. This activity can keep the applied systems in their optimal conditions day after day, and allows predicting in advance how some functional aspects of the energy systems may be varied to improve the related performance throughout operation.
We offer training courses to practitioners and academics on the analysis and design of energy geostructure systems.
We offer training courses to practitioners and academics on the analysis and design of energy geostructure systems. These courses cover the best and latest theoretical and experimental knowledge available about energy geostructures, and the practical competences that allow a successful application of this technology.