ScholarWorks@동국대학교

초록

The global transition to low-carbon energy systems necessitates evaluating the techno-economic and environmental feasibility of renewable-energy-driven biomass utilization systems (BMGSs) for flexible hydrogen carrier production under environmental conditions in South Korea. This study utilizes a multi-objective optimization framework coupled with pinch analysis to optimize energy efficiency, economic viability, and environmental performance, considering total annual cost, self-sufficiency, and CO2 emissions. The balanced BMGS scenario achieved a self-sufficiency rate of 0.87, producing 177.2 tons of hydrogen and 3,886.9 tons of ammonia annually while minimizing CO2 emissions (5,081.6 t CO2/year) and achieving an NPV25 of $15.66million.Thesensitivityanalysisofcarbontaxrates($0–$100pertonofCO2)revealedthattheBMG{S}_{e}coscenario,whichhadthehighestCO2emissions,exhibitedthegreatestsensitivity,witha47$75/tCO2. A regional analysis across six South Korean cities revealed significant variations in production costs, with Jeju Island achieving the lowest costs due to its abundant renewable resources. © 2025 Elsevier Ltd

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