Sizing and Assessment of Different Architectures of Micro Integrated Hybrid Power System—A Case Study

Abstract

AbstractThe power structure incorporating of sustainable power source, customary fuel source, and fuel supply is a great choice for giving power to far-off areas where admittance to regional grid isn’t achievable or prudent. Dependability and cost-viability are the two most significant targets for planning a hybrid power system (HPS). The expense execution and dependability of power supply are broken down for a miniature coordinated micro-integrated HPS (MIHPS) made out of sun-powered photovoltaic (PV), diesel generator (DG), and batteries (BAT) in different framework designs. The size and limit of power sources are figured for system reliability based on loss of power supply probability (LPSP). The impact of fluctuating PV, DG sizes, and BAT limits on reliability of power supply (as LPSP) and cost of energy (CoE) are altogether surveyed in different structures. The MIHPS of various designs and sizes are considered for the least CoE at worthy LPSP. The satisfactory LPSP is kept invariant at < 0.001 (likeness 99.9% power supply reliability) for the investigations. The precise methodology of estimating the power sources through execution of guaranteeing adequate power supply dependability is the purpose of the current investigation.KeywordsHybrid power systemPhotovoltaicDiesel generatorBatteriesReliabilityCost of energy