Design of a Solar Powered Reverse Osmosis System in Egypt

JEMMME Journal of Energy Mechanical Material and Manufacturing Engineering Pub Date : 2021-12-20 DOI:10.30464/10.30464/jmee.2021.5.2.125

S. Ibrahim, A. G. Shabak

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Abstract

Scarcity of fresh water, forced many countries to get their water needs, or part of it, by means of saline water desalination. Reverse osmosis (RO) systems are useful tools in this concern. In case the grid electricity is not available or costly, photovoltaic (PV) power is necessary to derive RO systems. The present paper is concerned with providing a methodology for complete sizing and design of a photovoltaic reverse osmosis (PVRO) system in Egypt. Egypt has very favorable solar energy. A computer program was constructed to solve the mathematical equations of the model to get the numerical values. The program is capable of calculating the solar irradiation for any city in Egypt. Calculations and selection of the RO system with all connected pumps, the peak PV power needed, and the actual PV area were performed for different water demands ranging from 1-100 m3/day, and various water total dissolved solids (TDSs) of 5000, 15000, and 30000 mg/l. The cost of the complete PVRO system was also determined. The concern of the paper is related to water desalination and solar energy, which are responsible for our existence. The work also aims toward sustainable and clean environment via utilizing solar energy.

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埃及太阳能反渗透系统的设计

淡水的短缺，迫使许多国家获得他们的水需求，或部分，通过咸水淡化的手段。反渗透(RO)系统是解决这一问题的有用工具。在电网电力不可用或价格昂贵的情况下，光伏发电(PV)是必要的，以获得RO系统。本论文是有关提供一个完整的规模和光伏反渗透(PVRO)系统的设计方法在埃及。埃及有非常有利的太阳能。编制了计算机程序，对模型的数学方程进行求解，得到数值。该程序能够计算埃及任何城市的太阳辐照。在需水量为1 ~ 100 m3/天，水总溶解固体(tds)为5000、15000、30000 mg/l的情况下，对所有连接泵的RO系统、所需PV峰值功率和实际PV面积进行了计算和选择。同时还确定了整个PVRO系统的成本。本文关注的是海水淡化和太阳能，它们对我们的生存负有责任。这项工作还旨在通过利用太阳能实现可持续和清洁的环境。

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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来源期刊

JEMMME Journal of Energy Mechanical Material and Manufacturing Engineering

自引率

0.00%

发文量

审稿时长

8 weeks