%0 Journal Article
%T Numerical Modeling and Technico-Economic Analysis of a Hybrid Energy Production System for Self-Consumption: Case of Rural Area in the Comoros
%A Fahad Maoulida
%A Mohamed Aboudou Kassim
%A Rabah Djedjig
%A Ahmed Ihlal
%A Mohammed El Ganaoui
%J Journal of Power and Energy Engineering
%P 24-59
%@ 2327-5901
%D 2024
%I Scientific Research Publishing
%R 10.4236/jpee.2024.125002
%X This study aims to provide electricity to a remote village in the Union of Comoros that has been affected by energy problems for over 40 years. The study uses a 50 kW diesel generator, a 10 kW wind turbine, 1500 kW photovoltaic solar panels, a converter, and storage batteries as the proposed sources. The main objective of this study is to conduct a detailed analysis and optimization of a hybrid diesel and renewable energy system to meet the electricity demand of a remote area village of 800 to 1500 inhabitants located in the north of Ngazidja Island in Comoros. The study uses the Hybrid Optimization Model for Electric Renewable (HOMER) Pro to conduct simulations and optimize the analysis using meteorological data from Comoros. The results show that hybrid combination is more profitable in terms of margin on economic cost with a less expensive investment. With a diesel cost of $1/L, an average wind speed of 5.09 m/s and a solar irradiation value of 6.14 kWh/m&lt;sup&gt;2&lt;/sup&gt;/day, the system works well with a proportion of renewable energy production of 99.44% with an emission quantity of 1311.407 kg/year. 99.2% of the production comes from renewable sources with an estimated energy surplus of 2,125,344 kWh/year with the cost of electricity (COE) estimated at $0.18/kWh, presenting a cost-effective alternative compared to current market rates. These results present better optimization of the used hybrid energy system, satisfying energy demand and reducing the environmental impact.
%K Hybrid System
%K Rural Area Electrification
%K Comoros
%K Techno-Economic Analysis
%K PV-Wind-Diesel-Battery
%K Meteorological Data
%K HOMER Energy Pro
%U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=133662