GreenTAGS Services

We offer our support to our clients from the concept stage and up to the execution and monitoring of the system

GreenTAGS covers services beginning with the concept stage, in-situ prospecting, design, consulting during execution and up to post-execution monitoring. The design stage including the 3 main steps: geotechnical design, thermo-mechanical design and energy design of energy geostructures represents a critical stage in the success implementation of these systems along with the careful control of main phases of execution.

Feasibility studies

Analysis of various data such as: architectural proposal, soil data (geotechnical study and thermal proprieties of the soils), identification of potential infrastructures that can be thermally activated and perform a preliminary analysis on their energy potential.

Geotechnical design

Geotechnical design

Thermo-mechanical design

The objective of energy design is to calculate the amount of energy that can be exploited through the concrete infrastructure and optimize it with consideration of all influencing factors.

Monitoring

Installation of sensors inside energy geostructures and monitoring during real-life conditions allows the system to be further optimized based on the users' needs.

In-situ prospecting of the thermal potential of the site

The thermal response test is performed directly on the site and is important for obtaining information on the thermal parameters of the soil, relevant in further steps of the design.

Energy design

The objective of energy design is to calculate the amount of energy that can be exploited through the concrete infrastructure and optimize it with consideration of all influencing factors.

Supervision and Consulting During Implementation

Careful control of main processes at the execution stage is essential for the success of energy geostructures. Our team provides on-site services and training to ensure a successful execution of the system.

Feasibility studies

Analysis of various data such as: architectural proposal, soil data (geotechnical study and thermal proprieties of the soils), identification of potential infrastructures that can be thermally activated and perform a preliminary analysis on their energy potential.

In-situ prospecting of the thermal potential of the site

The thermal response test is performed directly on the site and is important for obtaining information on the thermal parameters of the soil, relevant in further steps of the design.

Geotechnical design

Geotechnical design

Energy design

The objective of energy design is to calculate the amount of energy that can be exploited through the concrete infrastructure and optimize it with consideration of all influencing factors.

Thermo-mechanical design

Final mechanical design of concrete infrastructure considering the effects (additional stresses and strains) induced by temperature cycle variations that occur due to the thermal activation.

Supervision and Consulting During Implementation

Careful control of main processes at the execution stage is essential for the success of energy geostructures. Our team provides on-site services and training to ensure a successful execution of the system.

Monitoring

Installation of sensors inside energy geostructures and monitoring during real-life conditions allows the system to be further optimized based on the users' needs.

Areas
of application:

Energy Geostructures can be implemented in a large variety of structures and buildings being a sustainable solution for heating and cooling with renewable energy.

Office buildings
Residential buildings
Mall
Underground parking
Hospitals
Educational institutions
Subway and subway stations
Pilot-based bridges and viaducts
Services
Learn more about the GreenTAGS team
About us