Geothermal-based Optimized Energy Systems
GOES
Call 2 2019
The current design of energy systems lacks standardisation and transferability. Similar challenges were successfully addressed in other industries via a platform-based design (PBD) approach. Applying the PBD approach to energy systems has a significant impact potential. It will enable rapid and transferable innovations and implementations at different scales for energy system transformations from the subsurface to the city scale. The holistic approach will lead to the cost-optimal integration of geothermal energy in existing and new urban areas. And most importantly, it leads to a significant CO2 emission reduction in the heating and cooling supply. The PBD defines the interfaces between the scales and standardises the information exchange between different levels of abstraction and thus enables the effective implementation of Geothermal-based Optimised Energy Systems (GOES).
Main Coordinator: Robin Mutschler
Swiss Federal Laboratories for Materials Science and Technology
Website goes-project.info
Partners Germany
Karlsruhe Institute of Technology
https://www.agw.kit.edu/
Partners from Austria
Austrian Institute of Technology
https://publications.ait.ac.at/en/organisations/center-for-energy
Partners from Switzerland
EMPA
https://www.empa.ch/web/s313/ues-home
Sympheny
https://www.sympheny.com/
Partners from the United States
Lawrence Berkeley National Lab (LBNL)
https://buildings.lbl.gov/
University of California - Berkeley
https://geomechanics.berkeley.edu/
Partners from Denmark
Aalborg University
https://www.en.build.aau.dk/
Energy Machines
https://www.energymachines.com/
Total investment
2,630,669 €
Participant
Austria
Switzerland
United States
Denmark
GermanyFinal report
Call 3
RECOIN
Real-time control and tuning of borehole heat exchanger fields for optimal integration in heating and cooling systems
Call 2 2017
First series of funded projects
HECTAPUS
HEating Cooling Transition and Acceleration with Phase change energy Utilisation Storage
FLXenabler
Flexible heating and cooling and geothermal energy storage as an enabler for decarbonized integrated energy systems
Galleries 2 Calories G2C
Galleries 2 Calories
SORPTES
Pilot Testing Sorption based thermal energy storage
DEPLOI
DEmonstrate Production enhancement through LOw cost dIrectional steel shot drilling for district HEATing
PERFORM II
Improving Geothermal System Performance Through Filter Technology Development
The CHANGE
The Cooling and Heating transition Acceleration via Network Geothermal Energy
Call 2 2019
DEMO FTES
Development, Monitoring, and Control of Fracture Thermal Energy Storage in Crystalline Rock Formations
CO2inLoop
Extended sector coupling systems of district heating and cooling technology using CO2 as a heat transfer medium
S-GeoHeat
Shallow-Geothermal sourced Low-Temperature District Heating
MALEG
Machine Learning for Enhancing Geothermal energy production
GeoCohort
Geothermal Community Heat Technology and Transfer
Joint Call 2021
Accelerating the Heating and Cooling Transition.
DEEPLIGHT
Novel concept to construct cost-effective geothermal wells with Electro Pulsed Power technolog
PERFORM
Improving Geothermal System Performance by Scaling and Corrosion Prevention and Injectivity Enhancement
DEEPEN
Understanding roots of magmatic geothermal systems and finding superhot resources
GeConnect
Highlights improvements in well design to reduce the risk of casing failures due to thermal expansion in geothermal wells.
SEE4GEO
Power of seismoelectric effects technology for geothermal resource assessment and monitoring development
ZoDrEx
ZoDrEx project aims to demonstrate drilling, completion, and production of products and technologies that will increase the technical and economic chances of success in geothermal energy applications.
GEO-URBAN
Identification and Assessment of Deep GEOthermal Heat Resources in Challenging URBAN Environments
GRE-GEO
Power of seismoelectric effects technology for geothermal resource assessment and monitoring development
RESULT
Developing advanced cement systems resistant to repeated thermo-mechanical cycling for a wide temperature range
TEST-CEM
Developing advanced cement systems resistant to repeated thermo-mechanical cycling for a wide temperature range
CAGE
Installing geothermal wells using crane-based casing while drilling Huisman Composite Tubulars with MaxFlow™ connections
DEEP
Working towards reliable procedures to assess and reduce the seismic risk to maintain the social licenses to operate geothermal energy
GEOFOOD
Greener way to a better world
HEATSTORE
CAGE is a development and demonstration project of several cost-saving and output-improving installation technologies.
Coseismiq
Working towards a reliable support tool controlling seismicity and managing induced earthquakes during geothermal operations
SPINE
Developing tools for stress profiling in the crystalline rock to estimate stimulation efficiency and seismicity linked to subsurface heat exchangers
