ExpectedOutcome:Project results are expected to contribute to some of the following expected outcomes:
Advance the European scientific basis and increase technology competitiveness in the area of energy carrier production and integration with renewable electricity and carbon value and supply chains;Technology de-risk of renewable energy carrier value chains through demonstration as a necessary step before scaling up at commercial level;Enhanced sustainability of renewable energy carrier value and supply chains by improving techno-economic efficiency and avoidance of CO2/GHG emissions and renewable electricity economic or curtailment losses and supported by a life cycle assessment.
Scope:Demonstration of renewable energy carrier synthesis from variable renewable electricity surplus and carbon emissions from energy consuming sectors, which is targeting improvement of the overall synthesis value chain efficiency and viability while making best use of the CO2 emissions in synergy with renewable electricity generation. The incorporation of hybrids of renewable electricity with algal or synthetic renewable fuels in energy intensive sectors by integrating the conversi...
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ExpectedOutcome:Project results are expected to contribute to some of the following expected outcomes:
Advance the European scientific basis and increase technology competitiveness in the area of energy carrier production and integration with renewable electricity and carbon value and supply chains;Technology de-risk of renewable energy carrier value chains through demonstration as a necessary step before scaling up at commercial level;Enhanced sustainability of renewable energy carrier value and supply chains by improving techno-economic efficiency and avoidance of CO2/GHG emissions and renewable electricity economic or curtailment losses and supported by a life cycle assessment.
Scope:Demonstration of renewable energy carrier synthesis from variable renewable electricity surplus and carbon emissions from energy consuming sectors, which is targeting improvement of the overall synthesis value chain efficiency and viability while making best use of the CO2 emissions in synergy with renewable electricity generation. The incorporation of hybrids of renewable electricity with algal or synthetic renewable fuels in energy intensive sectors by integrating the conversion of surplus renewable electricity and carbon emissions from these sectors to liquid renewable energy carriers by algal, artificial photosynthesis or homologous non-solar pathways will be demonstrated. Conversion technologies should be based upon biological, biochemical, thermochemical and or electrochemical processes.
Proposals should avoid curtailing of renewable electricity and carbon emissions and improve overall efficiency and viability of renewable electricity assemblies in synergy with reduction of carbon emissions.
Specific Topic Conditions:Activities are expected to achieve TRL 7 by the end of the project – see General Annex B.
Cross-cutting Priorities:Artificial IntelligenceSocial sciences and humanitiesDigital Agenda
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