Optimal Arrangements of Renewable Energy Systems for Promoting the Decarbonization of Desalination Plants

Journal of Marine Science and Engineering Pub Date : 2024-07-16 DOI:10.3390/jmse12071193

Deivis Avila Prats, Felipe San Luis Gutiérrez, Ángela Hernández López, G. N. Marichal Plasencia

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Abstract

In this research, a renewable energy hybrid system (PV-Wind) is modeled to compare different design options based on their economic and technical features. The energy requirements of a Reversible Osmosis desalination plant located on the island of Tenerife with a water production capacity of up to 20,000 m3/day was considered. The system is connected to the electricity grid. The HOMER software, version 2.75 was used to produce optimum strategies for renewable energy. The assumptions input into the model were: the technical specifications of the devices, electricity demand of the desalination plant, as well as the solar radiation and the wind speed potentials. Numerous arrangements were considered by the software, version 2.75. The optimal results were obtained based on the use of renewable energy. The data used in the study were recorded in Tenerife in the Canary Islands. The experience of this research could be transferred to other Atlantic islands with similar renewable energy sources (specifically the wind) and water scarce conditions.

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促进海水淡化厂去碳化的可再生能源系统最佳安排

本研究建立了一个可再生能源混合系统（光伏-风能）模型，以比较不同设计方案的经济和技术特点。研究考虑了位于特内里费岛的可逆渗透海水淡化厂的能源需求，该厂的产水量高达 20,000 立方米/天。该系统与电网相连。使用 2.75 版 HOMER 软件来制定可再生能源的最佳策略。输入模型的假设条件包括：设备的技术规格、海水淡化厂的电力需求以及太阳辐射和风速潜力。2.75 版软件考虑了多种安排。根据可再生能源的使用情况，得出了最佳结果。研究中使用的数据是在加那利群岛的特内里费岛记录的。这项研究的经验可以推广到大西洋上其他具有类似可再生能源（特别是风）和缺水条件的岛屿。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Marine Science and Engineering

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