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Assessing the prospective environmental performance of hydrogen from high-temperature electrolysis coupled with concentrated solar power

Gonzalo Puig-Samper, Eleonora Bargiacchi, Diego Iribarren, Javier Dufour

2022Renewable Energy44 citationsDOIOpen Access PDF

Abstract

Hydrogen is currently being promoted because of its advantages as an energy vector, its potential to decarbonise the economy, and strategical implications in terms of energy security. Hydrogen from high-temperature electrolysis coupled with concentrated solar power (CSP) is especially interesting since it enhances the last two aspects and could benefit from significant technological progress in the coming years. However, there is a lack of studies assessing its future environmental performance. This work fills this gap by carrying out a prospective life cycle assessment based on the expected values of key performance parameters in 2030. The results show that parabolic trough CSP coupled with a solid oxide electrolyser is a promising solution under environmental aspects. It leads to a prospective hydrogen carbon footprint (1.85 kg CO2 eq/kg H2) which could be classified as low-carbon according to current standards. The benchmarking study for the year 2030 shows that the assessed system significantly decreases the hydrogen carbon footprint compared to future hydrogen from steam methane reforming (81% reduction) and grid electrolysis (51%), even under a considerable penetration of renewable energy sources.

Topics & Concepts

Renewable energyHydrogen productionEnvironmental scienceParabolic troughGreenhouse gasHydrogen fuelHydrogenCarbon footprintElectrolysisHydrogen economySolar energyPower to gasProcess engineeringWaste managementChemistryEngineeringElectrical engineeringElectrodeBiologyEcologyPhysical chemistryElectrolyteOrganic chemistryHybrid Renewable Energy SystemsHydrogen Storage and MaterialsEnergy and Environment Impacts
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