Novel CO2-based electrothermal energy and geological storage system
CEEGS is a 3-year long Horizon Europe funded project, that will develop a cross-sectoral technology for the energy transition, combining a renewable energy storage system based on the transcritical CO2 cycle, CO2 storage in geological formations and geothermal heat extraction. The main objective of the project is to provide scientific proof of the techno-economic feasibility of the technology, raising the current low Technology Readiness Level (TRL) from 2 to 4 by addressing gaps in the interface between surface trans-critical cycle and the subsurface CO2 storage.
Our 3-phase approach
From theoretical principles to models, simulations and processes…
From models and simulations to systems/experimental …
Social, economic and sustainability assessments, incl. social acceptance studies, Life Cycle Assessment (LCA) and Techno-Economic Analysis (TEA) tools.
CEEGS Concept
Learn more about the project
CEEGS is a 3-year long Horizon Europe funded project, that will develop a cross-sectoral technology for the energy transition, combining a renewable energy storage system based on the trans-critical CO2 cycle, CO2 storage in geological formations and geothermal heat extraction. This system has a negative CO2 footprint as part of the stored underground CO2 is diffused into the geological formation, resulting in permanent sequestration. The main objective of the project is to provide scientific proof of the techno-economic feasibility of the technology, raising the current low Technology Readiness Level (TRL) from 2 to 4 by addressing gaps in the interface between surface trans-critical cycle and the subsurface CO2 storage.
Why
It is a scalable system with the potential for high-performance, high-capacity energy storage. It can be used for electricity storage and production, heating and cooling, also providing partial CO2 sequestration. The concept minimizes costs and surface impact, increases the energy storage capacity, and delivers energy in different forms, providing high versatility due to integration possibilities in multiple applications.
How
Development of a proof of concept, Technology Readiness Level 4, based on the integration of models for system, components and energy system integration, a lab demonstration on a 20 kW power scale, as well as experimental data focusing on the challenges for the interface between surface components and underground systems, where there is the knowledge and technological gap.
What
A novel concept integrating thermoelectric energy storage based on reversible transcritical CO2 cycles, for renewable energy, both in the form of electricity, thermal, and CO2 storage in geological formations.
Key elements of the impact
Learn more about the project impact
Scientific
Demonstration of integrated CO2 underground storage will significantly increase energy storage operational efficiency. Global advancement of the knowledge on CO2 storage and closed CO2 cycles to stimulate further scientific discoveries.
Technological/Economic
Advance in a low cost-high capacity energy storage, capable of providing dispatchable renewable electricity, hence contributing to a clean energy system that is reliable, affordable and fair. Drive technical innovations at public research institutions and companies. New partnerships, products, and services as well as economic growth of equipment manufacturer, engineering service providers and energy companies across Europe. Triggering of new investments in the technologies. Contribution to the ‘security of supply’ due to grid stabilisation.
Societal
Contribution to informed political decision-making and stimulating public discourse through our profound communication activities. Support of legislative decision-making through scientific evidence. Support of areas where the CEEGS technology will be implemented.
Environmental
Energy storage system for renewables dispatchbility, with low impact materials with safe and permanent storage of larger amounts of CO2 in geological settings.
News
Exciting update from CEEGS Facility at HZDR
Our researchers at the Helmholtz-Zentrum Dresden Rossendorf (HZDR) successfully completed a pressure test for high temperature and pressure, marking a significant milestone for our operations. With the recent delivery of the CO2 pump, the CEEGS facility can now...
Youth with Researchers Programme: Engaging First Sessions at ETSI, Seville
Earlier this year, the Youth with Researchers programme kicked off with an engaging start at the Escuela Técnica Superior de Ingeniería (ETSI) in Seville. This initiative aims to encourage high-schools students to delve into research projects alongside faculty and...
CO2 pump for CEEGS facility arrived
As you might have read in previous posts, the Helmholtz Centre Dresden Rossendorf (HZDR) is installing an experimental facility at its premises to prove the CEEGS cycle at the laboratory scale. This week, the CO2 pump for the CEEGS facility was delivered to HZDR. The...
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