COLDSPARK DRIVEN ENERGY AND COST-EFFICIENT METHANE CRACKING FOR HYDROGEN PRODUCTION

Climate, Energy & MobilityHORIZON-RIAID: 101069931
EC Contribution
€24,960
Consortium Size
7 orgs
Start Year
2022
Summary

The ColdSpark project will validate a novel non-thermal plasma technology to produce hydrogen at an industrial scale from methane, with a process energy efficiency of 79%, achieving a conversion rate of 85% with zero CO2 emissions. This will be achieved by designing an industrial relevant reactor that leverages the best features of the non-thermal plasma technologies, gliding arc and corona discharge, to ensure high efficiency and scalability. The innovation addresses for the first time the critical step of matching the reactor with a pulsed power supply. It enables a perfect fine-tuning of the cracking process parameters, to find the right electron density and energy distribution in the plasma reactor, to maximise energy efficiency. The up- and downstream gas management will be optimised to further contribute to the system’s compatibility to existing infrastructure. The project will develop and test a novel plasma reactor at lab scale and validate it in conjunction with the power supply at large-scale, pursuing the industry’s most power efficient generation of hydrogen alongside high-value carbon. The technology will assess its application for both, natural gas and biomethane producers. A low energy cost (< 15 kWh/kg H2 produced) without the need for catalysts and water, makes the proposed solution the most cost-competitive, environment-friendly, and less complex to implement. The reactor design and modularity bring lower CAPEX and OPEX and make it easily scalable and flexible. The project gathers the expertise of a mix of academic, research, and industrial partners from five countries, which bring both outstanding research and topic competence, as well as knowledge and access to the solution for end-user industries.

Consortium (7)

Project Results (11)

Source: CORDIS, the EU research results database.

Publications (5)
Environmental, economic, and social impacts of methane cracking for hydrogen production: A comprehensive review
International Journal of Hydrogen Energy· 2025DOI
Isabella Bulfaro, Anna Sánchez, Gabriela Benveniste, Beatriz Amante García, Víctor José Ferreira
Nature Communications
Nature Communications· 2025DOI
Chunqiang Lu; Yaolin Wang; Dong Tian; Ruidong Xu; Roong Jien Wong; Shibo Xi; Wen Liu; Hua Wang; Xin Tu; Kongzhai Li
A kinetic study of nonthermal plasma pyrolysis of methane: Insights into hydrogen and carbon material production
Chemical Engineering Journal· 2024DOI
Xuchu Yuan, Jintao Sun, Yichen Ma, Yaolin Wang, Bowen Liu, Yuxiang Cai, Xue Yong, Xin Tu
Methane up-carbonizing: A way towards clean hydrogen energy?
Chemical Engineering Journal· 2024DOI
Guoxing Chen, Xiao Yu, Kostya (Ken) Ostrikov, Bowen Liu, Jonathan Harding, Gert Homm, Heng Guo, Stephan Andreas Schunk, Ying Zhou, Xin Tu, Anke Weidenkaff
Data Management Plan (M24)
Deliverables (5)
Other Results (1)
Periodic Reporting for period 2 - ColdSpark (COLDSPARK DRIVEN ENERGY AND COST-EFFICIENT METHANE CRACKING FOR HYDROGEN PRODUCTION)