Optimal Hybrid Energy System Sizing for Green Hydrogen Production: Scenario-Based Techno-Economic Approach
Abuyahya A, Feilat EA, Abuzayed AIS (2026)
Publication Type: Journal article
Publication year: 2026
Journal
Book Volume: 7
Article Number: 12
Journal Issue: 1
Abstract
This study presents a comprehensive techno-economic assessment to optimize a hybrid renewable energy system for green hydrogen production in Jordan. Using the Hybrid Optimization Model for Electric Renewables (HOMERs) and System Advisor Model (SAM) software, this study evaluates multiple cost projections for 2030 technology costs. Key parameters such as capital cost, efficiency, and lifetime are varied extensively. Highlighted results show a wide range in the Levelized Cost of Hydrogen (LCOH), reaching 1.59 to 3.49 USD/kg, and the Levelized Cost of Energy (LCOE) from 0.0072 to 0.0301 USD/kWh. Furthermore, Net Present Value (NPV) spans from USD 424 to 927 million, depending on the scenario and sensitivity case. Technically, the system’s optimized capacities vary significantly. PV ranges from 203 to 457 MW, wind capacities range from 0 to 220 MW, and electrolyzers range from 192 to 346 MW, demonstrating the flexibility required to meet different cost and performance assumptions. The study’s broad relevance extends to developing countries with grid constraints, where off-grid green hydrogen production is feasible. Its framework can be adapted globally, offering valuable insights.
Authors with CRIS profile
Anas Ishtaiwi Salman Abuzayed
Juniorprofessur für Wirtschaftswissenschaften (Energiemärkte und Energiesystemanalyse)
Involved external institutions
Jordan (JO)How to cite
APA:
Abuyahya, A., Feilat, E.A., & Abuzayed, A.I.S. (2026). Optimal Hybrid Energy System Sizing for Green Hydrogen Production: Scenario-Based Techno-Economic Approach. Hydrogen, 7(1). https://doi.org/10.3390/hydrogen7010012
MLA:
Abuyahya, Ahmad, Eyad A. Feilat, and Anas Ishtaiwi Salman Abuzayed. "Optimal Hybrid Energy System Sizing for Green Hydrogen Production: Scenario-Based Techno-Economic Approach." Hydrogen 7.1 (2026).
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