Optimization of green hydrogen production in hydroelectric-photovoltaic grid connected power station

Abstract

The escalating trend of using hydro and solar resources to generate electricity and providing green hydrogen for the transportation sector is considered as a most optimal pathway to reducing the greenhouse gas emission. As a contribution, this study focuses on optimizing the production of green hydrogen in a combined hydroelectric-photovoltaic power station located in southern Oman. The study employed a simulated model to perform techno-economic analysis and optimize the components of the hybrid power station. The model aims to optimize the components of hydroelectric photovoltaic hybrid power station connected to the power grid. The fundamental parameters to perform this analysis are the average stream flow and solar radiation. This study is depicting the production of hydrogen from a power grid as well as its utilization in conversion to green hydrogen. The economic analysis of the project depends mainly on the cost of hydro turbines, power converters, PV panels, electrolyzers and hydrogen tanks. After the overall analysis, the researchers have concluded that the net profit is playing an imperative role in optimizing the levelized cost of green hydrogen to be €2.25/kg. This analysis is providing the opportunity to the researchers to do techno-economic analysis of the hydrogen production and to utilize the produced hydrogen to facilitate green transportation thereby reducing the greenhouse gas emission.