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Climate change mitigation potentials of on grid-connected Power-to-X fuels and advanced biofuels for the European maritime transport

Marcos Djun Barbosa Watanabe, Xiangping Hu, Vedant Ballal, Otávio Cavalett, Francesco Cherubini

2023Energy Conversion and Management X29 citationsDOIOpen Access PDF

Abstract

This study proposes a country-based life-cycle assessment (LCA) of several conversion pathways related to both on grid-connected Power-to-X (PtX) fuels and advanced biofuel production for maritime transport in Europe. We estimate the biomass resource availability (both agricultural and forest residues and second-generation energy crops from abandoned cropland), electricity mix, and a future-oriented prospective LCA to assess how future climate change mitigation policies influence the results. Our results indicate that the potential of PtX fuels to achieve well-to-wake greenhouse gas intensities lower than those of fossil fuels is limited to countries with a carbon intensity of the electricity mix below 100 gCO2eq kWh-1. The more ambitious FuelEU Maritime goal could be achieved with PtX only if connected to electricity sources below ca. 17 gCO2eq kWh-1 which can become possible for most of the national electricity mix in Europe by 2050 if renewable energy sources will become deployed at large scales. For drop-in and hydrogen-based biofuels, biomass residues have a higher potential to reduce emissions than dedicated energy crops. In Europe, the potentials of energy supply from all renewable and low-carbon fuels (RLFs) range from 32-149% of the current annual fuel consumption in European maritime transport. The full deployment of RLFs with carbon capture and storage technologies could mitigate up to 184% of the current well-to-wake shipping emissions in Europe. Overall, our study highlights how the strategic use of both hydrogen-based biofuels and PtX fuels can contribute to the climate mitigation targets for present and future scenarios of European maritime transport.

Topics & Concepts

BiofuelRenewable energyGreenhouse gasEnvironmental scienceFossil fuelClimate change mitigationBiomass (ecology)Climate changeElectricityLife-cycle assessmentNatural resource economicsRenewable fuelsElectricity generationWaste managementEngineeringProduction (economics)Power (physics)EcologyEconomicsPhysicsQuantum mechanicsMacroeconomicsElectrical engineeringBiologyMaritime Transport Emissions and EfficiencyHybrid Renewable Energy SystemsElectric Vehicles and Infrastructure
Climate change mitigation potentials of on grid-connected Power-to-X fuels and advanced biofuels for the European maritime transport | Litcius