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Techno-economic Analysis of Hydrogen Electrolysis from Off-Grid Stand-Alone Photovoltaics Incorporating Uncertainty Analysis

Jonathon Yates, Rahman Daiyan, Robert Patterson, Renate Egan, Rose Amal, Anita Ho-Baille, Nathan L. Chang

2020Cell Reports Physical Science300 citationsDOIOpen Access PDF

Abstract

Solar-driven electrolysis of water to generate hydrogen is emerging as a viable strategy to decarbonize the global energy economy. However, this direction is more expensive than traditional fossil fuel generation of hydrogen, and effective pathways to lower this cost need to be identified. Here, we report a Monte Carlo approach to explore a wide range of input assumptions to identify key cost drivers, targets, and localized conditions necessary for competitive stand-alone dedicated PV powered hydrogen electrolysis. We determine the levelized cost of hydrogen (LCOH), considering historical weather data for specific locations to model our PV system, and optimize its size compared to the electrolyzer. This analysis and its methods show the potential for green hydrogen production using off-grid PV, shows the merits of remote systems in areas of high solar resource, and provides cost and performance targets for electrolyzer technologies.

Topics & Concepts

Hydrogen productionPhotovoltaicsCost of electricity by sourceSolar ResourceEnvironmental sciencePolymer electrolyte membrane electrolysisProcess engineeringPhotovoltaic systemElectrolysis of waterEnvironmental economicsGridHydrogen economyRenewable energyHydrogenComputer scienceFossil fuelUncertainty analysisElectrolysisElectricity generationEngineeringWaste managementSimulationElectrical engineeringChemistryEconomicsPower (physics)Quantum mechanicsGeometryMathematicsElectrolyteElectrodePhysicsPhysical chemistryOrganic chemistryHybrid Renewable Energy SystemsEnergy and Environment ImpactsPhotovoltaic Systems and Sustainability
Techno-economic Analysis of Hydrogen Electrolysis from Off-Grid Stand-Alone Photovoltaics Incorporating Uncertainty Analysis | Litcius