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Dynamic simulation and thermoeconomic analysis of a power to gas system

Francesco Calise, Francesco Liberato Cappiello, Luca Cimmino, Massimo Dentice d’Accadia, Maria Vicidomini

2023Renewable and Sustainable Energy Reviews32 citationsDOIOpen Access PDF

Abstract

Power to gas technology is an innovative solution to promote the use of renewable energy technologies, also including e-fuels. This work presents a techno-economic analysis of a novel concept of a renewable power to gas plant. A 2.4 MW solid oxide electrolyzer fed by a 3.1 MW photovoltaic field is coupled with a biomethane production unit to produce synthetic methane by means of a 2.4 MW methanation unit. The hydrogen produced by the electrolyzer is used for the methanation reaction aiming at producing natural gas at net zero carbon emissions. The CO2 is obtained as a byproduct of the membrane separation in a biogas upgrading unit. The methanation unit and the electrolyzer models are developed in MatLab and integrated in TRNSYS to perform a dynamic simulation of all the components and the system as a whole. Dynamic simulation results show a 42% increase in the production of natural gas from renewable energy sources. The thermoeconomic analysis shows a remarkable primary energy saving index of 176% and a total amount of 896 tons of CO2 equivalent emissions saved. As expected, the critical point is the economic feasibility since the simple payback is 9 years in case local incentives and subsidies are considered. The parametric analysis on the photovoltaic capacity shows that the simple payback dramatically depends on such design parameter, varying from 6 years in the best case scenario to 92 years in the worst case scenario.

Topics & Concepts

Power to gasRenewable energyMethanationRenewable natural gasTRNSYSBiogasNatural gasProcess engineeringSubstitute natural gasPhotovoltaic systemGreenhouse gasEnvironmental sciencePayback periodWaste managementEngineeringEnvironmental engineeringMethaneProduction (economics)ElectrolysisChemistryHydrogenElectrical engineeringFuel gasSyngasCombustionEconomicsEnergy (signal processing)Organic chemistryStatisticsMacroeconomicsElectrolyteMathematicsEcologyElectrodeBiologyPhysical chemistryHybrid Renewable Energy SystemsEnergy and Environment ImpactsIntegrated Energy Systems Optimization
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