Review on Solar Thermal Desalination in Libya

Solar Energy and Sustainable Development journal Pub Date : 2021-02-18 DOI:10.51646/JSESD.V7I3.77

M. Abdunnabi, Basim Belgasim, A. Ramadan

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引用次数: 1

Abstract

Libya is suffering from freshwater shortage as most of its land is semi-arid to arid with very low precipitation rates and too limited fresh water sources. Libya is in one of the driest regions of the world with an annual rainfall ranging from just 10 mm to 500 mm, and only 5% of its land receives more than 100 mm annually. This review summarizes the most important published studies related to solar thermal desalination research in Libya. Brief description of the most thermal desalination technologies is also presented. The study has shown that only few in-completed pilot projects were carried-out for desalination using renewable energy. The research activities in the field of using renewable energy especially solar thermal energy to desalinate water are limited and do not give a comprehensive idea on the potential of different thermally driven solar desalination technologies. However, most of the recent pilot studies refer to using CSP desalination in providing most of the future water demand in Libya by 2035. A lot of efforts need to be done to carry-on a genuine research to put strategic plan to tackle the deficit water issue in Libya through using desalination driven by conventional and renewable energies.

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利比亚太阳能热脱盐技术综述

利比亚正遭受淡水短缺的困扰，因为其大部分土地是半干旱到干旱的，降水率非常低，淡水资源也非常有限。利比亚是世界上最干旱的地区之一，年降雨量从10毫米到500毫米不等，只有5%的土地年降雨量超过100毫米。本文综述了与利比亚太阳能热脱盐研究相关的最重要的已发表研究。简要介绍了大多数热脱盐技术。这项研究表明，只有少数未完成的试点项目使用可再生能源进行海水淡化。利用可再生能源特别是太阳能热脱盐海水领域的研究活动是有限的，并且没有全面了解不同的热驱动太阳能脱盐技术的潜力。然而，最近的大多数试点研究都提到，到2035年，利用CSP海水淡化来满足利比亚未来的大部分用水需求。需要做很多努力来进行真正的研究，制定战略计划，通过使用传统和可再生能源驱动的海水淡化来解决利比亚的缺水问题。

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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Solar Energy and Sustainable Development journal

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