期刊
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
卷 48, 期 26, 页码 9529-9539出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijhydene.2022.12.148
关键词
Wind energy; Green hydrogen; Refueling station; Optimization; Economic assessment
Clean energy resources will play a bigger role in improving sustainability and achieving durable development. Efficient technologies in energy production, storage, and usage can reduce gas emissions and enhance the global economy. Converting electrical energy generated from wind parks into green hydrogen offers an exciting solution for advancing the development of green hydrogen production and the clean transportation sector.
Clean energy resources will be used more for sustainability improvement and durable development. Efficient technologies of energy production, storage, and usage results in reduction of gas emissions and improvement of the world economy. Despite 30% of elec-tricity being produced from wind energy, the connection of wind farms to medium and large-scale grid power systems is still leading to instability and intermittency problems. Therefore, the conversion of electrical energy generated from wind parks into green hydrogen consists of an exciting solution for advancing the development of green hydrogen production, and the clean transportation sector. This paper presents a techno-economic optimization of hydrogen production for refueling fuel cell vehicles, using wind energy resources. The paper analyses three configurations, standalone Wind-Park Hydrogen Refueling Station (WP-HRS) with backup batteries, WP-HRS with backup fuel cells, and grid-connected WP-HRS. The analysis of different configurations is based on the wind potential at the site, costs of different equipment, and hydrogen load. Therefore, the study aims to find the optimized capacity of wind turbines, electrolyzers, power converters, and storage tanks. The optimization results show that the WP-HRS connected to the grid has the lowest Present Worth Cost (PWC) of 6,500,000 euro . Moreover, the Levelized Hydrogen Cost (LHC) of this solution was found to be 6.24 euro /kg. This renewable energy system pro-duces 80,000 kg of green hydrogen yearly.(c) 2022 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.
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