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Achieving universal energy access in remote locations using HOMER energy model: a techno-economic and environmental analysis of hybrid microgrid systems for rural electrification in northeast Nigeria.

Authors :
Lewis, Christopher Garrett
Ijeoma, Muzan Williams
Yakubu, Rahimat Oyiza
Chukwu, Benjamin Nnamdi
Chen, Hao
Carbajales-Dale, Michael
Source :
Frontiers in Energy Research; 2024, p1-19, 19p
Publication Year :
2024

Abstract

The developing world continues to face substantial obstacles to achieving affordable and dependable electricity access. This issue is especially pertinent for Nigeria, where diesel generators are widely relied upon in urban and rural regions because of an underdeveloped and unreliable national grid. The lack of grid reliability is worsened in Northeastern Nigeria, an area plagued by conflict, extreme poverty, and grid infrastructure deterioration. This study investigates the feasibility of implementing community-scale microgrids in rural areas without grid connection access. It focuses on assessing the technical, economic, and environmental aspects of utilizing these microgrids to deliver inexpensive and dependable electricity to underserved populations to increase energy access. A case study was conducted in Kabuiri, a village with an estimated population of 2,300 residents and an estimated load demand of 610 kWh per day. A hybrid microgrid system was designed and optimized to meet the community's load demand using HOMER software, sized to produce 610 kWh/day of electricity with a renewable penetration of 99%. The optimal solar PV/battery/generator system had a levelized cost of electricity (LCOE) of $ 0.093 per kWh, a net present cost (NPC) of $266,709, and an annual operating cost of $9,110. The system contributed 1,624 kg CO<subscript>2</subscript> eq/year of global warming potential and 56.81 kg O<subscript>3</subscript> eq/year of smog formation during operation. Sensitivity analysis showed that the system could effectively react to or adapt to substantial increases in diesel prices, requiring only marginal increases in photovoltaic capacity and reduced generator usage to maintain the most cost-efficient operation. Additionally, the system model can be adapted based on the population of the remote community without substantially impacting the LCOE, however, the NPC increases with increase in population size. This research will aid in increasing energy access in remote locations by providing insights to stakeholders and energy access project developers. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
2296598X
Database :
Complementary Index
Journal :
Frontiers in Energy Research
Publication Type :
Academic Journal
Accession number :
180801269
Full Text :
https://doi.org/10.3389/fenrg.2024.1454281