Integration of Different Storage Technologies towards Sustainable Development—A Case Study in a Greek Island

Wind Pub Date : 2024-03-01 DOI:10.3390/wind4010004

M. Bertsiou, E. Baltas

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Abstract

The necessity for transitioning to renewable energy sources and the intermittent nature of the natural variables lead to the integration of storage units into these projects. In this research paper, wind turbines and solar modules are combined with pumped hydro storage, batteries, and green hydrogen. Energy management strategies are described for five different scenarios of hybrid renewable energy systems, based on single or hybrid storage technologies. The motivation is driven by grid stability issues and the limited access to fresh water in the Greek islands. A RES-based desalination unit is introduced into the hybrid system for access to low-cost fresh water. The comparison of single and hybrid storage methods, the exploitation of seawater for the simultaneous fulfillment of water for domestic and agricultural purposes, and the evaluation of different energy, economic, and environmental indices are the innovative aspects of this research work. The results show that pumped hydro storage systems can cover the energy and water demand at the minimum possible price, 0.215 EUR/kWh and 1.257 EUR/m3, while hybrid storage technologies provide better results in the loss of load probability, payback period and CO2 emissions. For the pumped hydro–hydrogen hybrid storage system, these values are 21.40%, 10.87 years, and 2297 tn/year, respectively.

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整合不同存储技术实现可持续发展--希腊岛屿案例研究

向可再生能源过渡的必要性和自然变量的间歇性导致这些项目需要集成储能装置。在本研究论文中，风力涡轮机和太阳能模块与抽水蓄能、电池和绿色氢气相结合。文中介绍了基于单一或混合储能技术的五种不同情景的混合可再生能源系统的能源管理策略。希腊岛屿的电网稳定性问题和淡水供应有限是研究的动机。混合系统中引入了基于可再生能源的海水淡化装置，以获取低成本淡水。本研究工作的创新之处在于比较了单一和混合蓄水方法，利用海水同时满足生活和农业用水，并对不同的能源、经济和环境指数进行了评估。研究结果表明，抽水蓄能系统能以最低价格（0.215 欧元/千瓦时和 1.257 欧元/立方米）满足能源和水需求，而混合蓄能技术在负载损失概率、投资回收期和二氧化碳排放量方面具有更好的效果。对于抽水蓄能-氢混合蓄能系统，这些数值分别为 21.40%、10.87 年和 2297 吨/年。

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