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dc.contributor.advisorZamora, Ramon
dc.contributor.authorNkado, Franklin
dc.date.accessioned2021-10-21T23:55:27Z
dc.date.available2021-10-21T23:55:27Z
dc.date.copyright2021
dc.identifier.urihttp://hdl.handle.net/10292/14591
dc.description.abstractWith frequent power outages in Nigeria's Ifite community, which relies only on a diesel generator, solar energy has been recognized as a viable alternative to meet the community's growing energy demand. However, due to photovoltaics’ (PV) high initial cost of installation and intermittent nature, PV systems are not widely used in most Nigerian communities. Therefore, this thesis studies the feasibility of incorporating a Photovoltaic-Battery Energy Storage (PV-BES) into the existing Diesel Generator (DG) system to minimize the community's complete reliance on conventional energy while improving the microgrid's reliability. The study also minimizes the Levelized Cost of Energy (LCOE), Net Present Cost (NPC) and improve the reliability of the proposed microgrid system, which in turn reduces the outage hours and Cost of Load Loss (CLL). The research aims to determine how integrating the PV-BES system to the existing DG significantly affect the reliability and economics of the community’s DG microgrid system. The objective was achieved by utilizing the probability concept in MATLAB to obtain the reliability performance indicators such as the Loss of Load Probability (LOLP), Loss of Load Expectation (LOLE), Expected Energy not Served (EENS). Furthermore, the economic impacts of integrating PV-BES in the existing DG microgrid system were also investigated using MATLAB's fmincon optimization tool. Six scenarios with the same load profile, site irradiation, and diesel generator capacity were used to assess the proposed model's suitability. The proposed system was also modelled in HOMER to verify MATLAB's fmincon optimization tool's result and show the hourly variation of load demand and the generating units in the six scenarios. Additionally, factors such as the PV price, derating factor and azimuth angle effect on the PV energy production were utilized to study their impacts on the cost and operation of the proposed microgrid system. The results show that scenario six provides the optimum solution for the proposed PV-DG-BES with an LCOE of 0.209 $/kWh, total NPC of $614,191 and Initial capital cost of $192,118. The proposed system also improved reliability indices; the LOLP reduced from 2.6 to 0, the LOLE decreased from 84 hr/year to 0 hr/year, the CLL declined from 8,500 $/year to 0 $/year and the EENS from 5,800 kWh/year to 0 kWh/year. To conclude, the analysis results show that scenario six is feasible regardless of the high initial capital cost.en_NZ
dc.language.isoenen_NZ
dc.publisherAuckland University of Technology
dc.subjectSolar PVen_NZ
dc.subjectMicrogrid systemen_NZ
dc.subjectBattery energy storage systemen_NZ
dc.subjectLevelized cost of energyen_NZ
dc.subjectNet present costen_NZ
dc.titleReliability and Economic Analysis of a Microgrid System: A Case Study of Ifite Community, Nigeriaen_NZ
dc.typeThesisen_NZ
thesis.degree.grantorAuckland University of Technology
thesis.degree.levelMasters Theses
thesis.degree.nameMaster of Engineeringen_NZ
dc.rights.accessrightsOpenAccess
dc.date.updated2021-10-21T21:50:35Z


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