Optimal Configuration and Energy Scheduling Algorithm for an Off-Grid Hybrid Microgrid

FUOYE Journal of Engineering and Technology Pub Date : 2022-09-14 DOI:10.46792/fuoyejet.v7i3.913

G. Uzedhe, I. C. Febaide, Austin C. O. Azubogu

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Abstract

Off-grid hybrid microgrid which combines power sources from different technologies based on the availability of such resources and the economic/environmental considerations is gaining global interest due to the unreliable nature of conventional power systems. This research seeks to obtain an optimal configuration and develop a simple energy scheduling algorithm for a modern market using PV/Battery storage/Diesel generator technologies. HOMER software was used in obtaining the optimal configuration and economic/environmental analysis. The development of the scheduling algorithm was done based on the concept of energy flow in an off-grid hybrid microgrid using MATLAB software. An estimated load of 389.79 kW and average daily solar irradiance of 164.09W/m2 was recorded for the study site. The simulation results yielded Net Present Cost (NPC) of $6,405,234.36 and $0.2414 Cost of Energy (COE). A Greenhouse Gas (GHG) emission reduction of 42% was recorded for an off-grid system with solar renewable source. These clearly indicate that the use of optimized hybrid electrical energy resources with simple scheduling could greatly reduce both operational cost and environmental pollution.

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离网混合微电网的优化配置与能量调度算法

由于传统电力系统的不可靠性，基于这些资源的可用性和经济/环境考虑，将来自不同技术的电源组合在一起的离网混合微电网正在获得全球的兴趣。本研究旨在获得一个最优配置，并开发一个简单的能源调度算法，为现代市场使用光伏/电池存储/柴油发电机技术。采用HOMER软件进行优化配置和经济/环境分析。基于离网混合微电网的能量流概念，利用MATLAB软件进行了调度算法的开发。研究地点的估计负荷为389.79 kW，平均日太阳辐照度为164.09W/m2。模拟结果得出净当前成本(NPC)为6,405,234.36美元，能源成本(COE)为0.2414美元。使用太阳能可再生能源的离网系统温室气体(GHG)排放量减少了42%。这清楚地表明，使用优化的混合电能资源，简单的调度可以大大降低运行成本和环境污染。

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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FUOYE Journal of Engineering and Technology

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