PV Based Microgrid for Remote Area Electrification in Nigeria: A Systematic Review of Concepts and Extant Strategies
Eric E. Nta *
Department of Electrical and Electronics Engineering, University of Uyo, Nigeria.
Nseobong I. Okpura
Department of Electrical and Electronics Engineering, University of Uyo, Nigeria.
Kingsley M. Udofia
Department of Electrical and Electronics Engineering, University of Uyo, Nigeria.
*Author to whom correspondence should be addressed.
Abstract
Centralized power generation, transmission and distribution system operations in Nigeria can no longer deliver affordable and reliable electricity to remote households, both on and off the national grid. Therefore, a balanced approach, through renewable energy generation is the best option that would potentially lead accelerated journey to full electrification in the country. Renewable energy has become a panacea to energy problems worldwide because it is clean, environmentally friendly and ultimately cheaper. Due to the massive capacity of Nigeria to generate electricity from its numerous green energy resources, it has become crystal clear that access to sustainable and reliable energy in Nigeria is required for proper economic and social development. This work is based on an extensive review of recent experiences of more than 120 papers covering mostly the off-grid PV sector in the past 15years. The review included: scientific journals, conference papers, (PhD) theses, books and scientific reports from governments/NGOs and publications from energy institutions. A comprehensive review of relevant concepts and current microgrids optimization strategies applied to sizing, siting, load estimation and energy management has been conducted. Future research directions and potential of PV based microgrids for rural electrification have equally been specified.
Keywords: Renewable energy system, PV microgrids, rural electrification, microgrid optimization