Litcius/Paper detail

Feasibility study and techno-economic assessment of power-to-gas (P2G) technology based on solid oxide electrolysis (SOE)

Katsiaryna Martsinchyk, Aliaksandr Martsinchyk, Monika Łazor, Pavel Shuhayeu, Jakub Kupecki, Anna Niemczyk, Marcin Błesznowski, J. Milewski

2024Journal of Environmental Management28 citationsDOIOpen Access PDF

Abstract

Power-to-Gas (P2G) is considered as a promising energy storage technology in a long-time horizon. The rapid growth in the share of intermittent renewables in the energy mix is driving forward research and development in large-scale energy storage. This paper presents a feasibility analysis of a power-to-gas system in terms of various operating points and capacities. The analysis was performed using a system model, which features a solid oxide electrolyzer (SOE), a CO 2 separation unit, and a methanation reactor as the key components. For the purposes of the techno-economic assessment (TEA) of the system, the CAPEX/OPEX estimation was performed and the cost structure defined. The model proposed in the study enables system-level optimization, including technical and economic criteria, considering two nominal scales: 10 kW and 40 GW, which corresponds to the nominal capacity of SOE in each case. According to the study, in an SOE-based P2G system, the cost of synthetic natural gas (SNG) production will fall by 15–21% by 2030 and 29–37% by 2050. SNG production would cost 3.15–3.75 EUR 2023 /kg SNG in 2030 and 2.6–3.0 EUR 2023 /kg SNG in 2050 for systems with SOE power >10 MW. Generally, product cost reductions occur as a result of material development and large-scale production, which influences the system's CAPEX. According to the research, the technology will break even by 2050. The large-scale power-to-gas system with a total of 40 GW installed capacity delivers a product price of 2.4 EUR 2023 /kg SNG with the average conversion efficiency of 68%. • Feasibility study of Power-to-Gas system based on solid oxide electrolysis. • Multiparametric techno-economic simulation model has been developed. • Unique methodology with techno-economic assessment is proposed. • 40 GW system can deliver 2.4 EUR 2023 /kg SNG at conversion efficiency of 68%.

Topics & Concepts

Power to gasElectrolysisWaste managementEnvironmental scienceEngineeringChemistryElectrodePhysical chemistryElectrolyteMolten salt chemistry and electrochemical processesAdvancements in Solid Oxide Fuel CellsChemical Looping and Thermochemical Processes
Feasibility study and techno-economic assessment of power-to-gas (P2G) technology based on solid oxide electrolysis (SOE) | Litcius