混合浮动风、储能和海水淡化装置的建模

C. Cutajar, T. Sant, D. Buhagiar, R. Farrugia
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引用次数: 1

摘要

随着对淡水的需求不断增长,水资源正日益受到压力,目前全球三分之二以上的人口生活在缺水和缺水的国家。解决这个问题的一种方法是通过海水淡化来增加饮用水的供应。然而,在发展海水淡化厂方面出现了若干挑战,包括所需的大量土地资源和能源。事实上,利用风能等可再生能源为这些发电厂提供动力,被认为是一种主要的替代方案。一种由海上风力反渗透海水淡化装置组成的新型系统正在被提出。系统中还集成了一个液压-气动储能系统,以平滑压力波动,缓解供需不匹配,同时为浮动结构提供稳定的上推力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modelling of a Hybrid Floating Wind, Energy Storage and Desalination Unit
With a continuously growing demand for fresh water, water resources are increasingly being stressed with currently over two thirds of the global population living in water-stressed and water-scarce countries. One way to address this is to augment the supply of potable water through desalination. However, several challenges arise pertaining to the development of desalination plants, including the substantial amounts of land resources and energy required. In fact, powering such plants using renewable energy sources, such as the wind, is being considered as a leading alternative. A novel system is being proposed comprising of an offshore wind-powered reverse osmosis desalination unit. A hydropneumatic energy storage system is also integrated within the system to smoothen out the pressure fluctuations and mitigate the supply-demand mismatch while providing a stabilising upthrust to the floating structure.
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