Development of a Cost-Effective Solar/Diesel Independent Power Plant for a Remote Station

Okeolu Samuel Omogoye, A. B. Ogundare, I. O. Akanji
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引用次数: 8

Abstract

The paper discusses the design, simulation, and optimization of a solar/diesel hybrid power supply system for a remote station. The design involves determination of the station total energy demand as well as obtaining the station solar radiation data. This information was used to size the components of the hybrid power supply system (HPSS) and to determine its configuration. Specifically, an appropriate software package, HOMER, was used to determine the number of solar panels, deep-cycle batteries, and rating of the inverter that comprise the solar section of the HPSS. A suitable diesel generator was also selected for the HPSS after careful technical and cost analysis of those available in the market. The designed system was simulated using the HOMER software package and the simulation results were used to carry out the optimization of the system. The final design adequately meets the station energy requirement. Based on a life expectancy of twenty-five years, a cost-benefit analysis of the HPSS was carried out. This analysis shows that the HPSS has a lower cost as compared to a conventional diesel generator power supply, thus recommending the HPSS as a more cost-effective solution for this application.
开发一种具有成本效益的太阳能/柴油独立电站
本文讨论了远程电站太阳能/柴油混合供电系统的设计、仿真和优化。该设计包括确定站点总能源需求以及获取站点太阳辐射数据。该信息用于确定混合电源系统(HPSS)组件的尺寸并确定其配置。具体来说,一个合适的软件包HOMER被用来确定组成HPSS太阳能部分的太阳能电池板、深循环电池的数量和逆变器的额定值。在对市场上可用的柴油发电机进行仔细的技术和成本分析后,为HPSS选择了合适的柴油发电机。利用HOMER软件包对所设计的系统进行了仿真,并利用仿真结果对系统进行了优化。最终设计充分满足电站能量需求。基于25年的预期寿命,对HPSS进行了成本效益分析。该分析表明,与传统的柴油发电机电源相比,HPSS具有更低的成本,因此推荐HPSS作为该应用的更具成本效益的解决方案。
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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13
审稿时长
28 weeks
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