Site - Geothermal GIS

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100 good reasons initiative

G.TES Ground thermal energy storage

5G network

Facts at one glance

Status of the project: Pilot / testing plant

Operation mode:

Geothermal source: Shallow / Ambient Geothermal

Max heat capacity: < 1MW

Network generation: 5G

Year of operation start: 2013

Contact: jessica.chicco@unito.it

Description of the project

The system is designed as a BTES (Borehole Thermal Energy Storage) technology, aimed at the evaluated the thermal behavior of shallow alluvial deposits and their ability to store solar energy during the warm season, providing it in winter. Two solar panels were coupled with four closed-loop borehole heat exchangers in order to produce and transfer heat to the underground from April to September; in October the cycle starts working in reverse mode so to extract the energy collected. A total of 20 RTD 4wire Pt100 (measurement range -50÷180°C, accuracy 5%) were placed every 5m downhole in three of the four BHEs and in the monitoring hole. In addition, 10 temperature sensors of the same type were placed throughout the circuit and on the thermal panels. An ultrasonic flow meter was placed on the pipes for providing flow rate data. A remote monitoring system was also installed, and recentrly implemented, in order to provide data and to constantly check the operation of the entire system.

Highlights of the project

The highlight of this system is of being the first living lab working as a underground storage system of Italy

The biggest challenges / obstacles

The biggest obstacles related to this system is the remote monitoring system

Detailed characteristic of the project

Site description

Address

Largo Braccini 2, 10095 Grugliasco Torino, Italy

Status of the project

Pilot / testing plant

Year of operation start

2013

Type of geothermal technologies involved

Shallow / Ambient Geothermal

Are heat pumps used within this project?

Heating network generation

Number of clients supplied

< 10

Involved companies

Owner / operator

University of Turin

Types of used geothermal sources

Source

Depth range

Temperature range

Purpose

Soil/rock - closed loop

Thermal energy storage

System design

Heat sources included in the network

Bivalent - geothermal is combined with other another heat source (e.g. peak load supply)

Max heating capacity supplied by geothermal energy

< 1MW

Share of geothermal energy

< 50%

Max cooling capacity supplied by geothermal energy

< 0.2 MW

Share of geothermal energy

< 50%

Annual operation hours for heating

< 2000 hours

Annual operation hours for cooling

< 500 hours

Annual heating production

< 1 GWh

Annual heating production share

< 50%

Annual cooling production

< 1 GWh

Annual cooling production share

< 50%

Energy conversion factor linked to the use of geothermal energy

< 5

Has backup system?

Share of fossil fuels for annual gross heat production

0 %