What question did this study set out to answer?

The research aims to analyze the performance of different hybrid power system configurations for isolated rural locations.

June 20, 2026

Optimization of Hybrid Renewable Microgrids for Isolated Sites

Key Points

The research aims to analyze the performance of different hybrid power system configurations for isolated rural locations.
Conducted simulations using HOMER Pro to evaluate four hybrid power configurations.
Compared combinations of photovoltaic arrays, wind turbines, battery storage, and diesel backup.
Assessed systems over a 25-year period at an 8% real discount rate.
The PV + wind + diesel + batteries configuration had the lowest net present cost (NPC = 79,942 USD).
Achieved a levelized cost of energy (LCOE = 0.207 USD/kWh) with a 93% renewable fraction.
Fully renewable alternatives increased NPC due to larger required PV and battery capacities.

Abstract

This paper analyzes the technical and economic performance of four off-grid hybrid power system configurations for a rural coastal site using HOMER Pro simulations. Configurations combining photovoltaic arrays, wind turbines, battery storage and a diesel backup were compared under a load-following dispatch over a 25-year horizon with an 8% real discount rate. The PV + wind + diesel + batteries layout emerged as the most cost-effective, achieving the lowest net present cost (NPC = 79,942 USD) and levelized cost of energy (LCOE = 0.207 USD/kWh) while delivering a 93% renewable fraction. In this option the diesel unit operates mainly as backup, consuming about 709 L/year. Fully renewable alternatives eliminate fuel use but require substantially larger PV and battery capacities and show marked increases in NPC. The results support PV–wind hybridization with a small diesel backup as a practical compromise between reliability and cost for decentralized electrification in resource-variable rural sites.

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