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Optimal Sizing of Hybrid Wind and Solar Renewable Energy System: A Case Study of Ethiopia

Optimal Sizing of Hybrid Wind and Solar Renewable Energy System: A Case Study of Ethiopia
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Author(s): Diriba Kajela Geleta (Department of Mathematics, Madda Walabu University, Oromia, Ethiopia) and Mukhdeep Singh Manshahia (Punjabi University, Patiala, India)
Copyright: 2021
Pages: 39
Source title: Research Advancements in Smart Technology, Optimization, and Renewable Energy
Source Author(s)/Editor(s): Pandian Vasant (University of Technology Petronas, Malaysia), Gerhard Weber (Poznan University of Technology, Poland) and Wonsiri Punurai (Mahidol University, Thailand)
DOI: 10.4018/978-1-7998-3970-5.ch007

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Abstract

If properly designed and utilized, earth has rich potential of clean energy in satisfying the energy demand of the world. In this chapter, nature-inspired methodology was employed to optimize hybrids of renewable energy system in the case of Jeldu district of Ethiopia. The main goal of the researchers here is to minimize the total annual cost of the system, which can be designed by using appropriate numbers of components based on the pre-designed constraints to satisfy the load demand. MATLAB code was designed for the proposed methodology, and the results were discussed. It was seen from the result that the proposed approach has solved the optimum sizing of defined problem with high convergence. The results show that energy demand of the village can be optimally satisfied by the use of wind and solar hybrid system. Moreover, the application of this chapter is important for countries like Ethiopia to increase access to electricity.

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