Optimal Design of a Stand-Alone Residential Hybrid Microgrid System for Enhancing Renewable Energy Deployment in Japan
Yuichiro Yoshida, Hooman Farzaneh
Abstract
This paper aims at the optimal designing of a stand-alone microgrid (PV/wind/battery/diesel) system, which can be utilized to meet the demand load requirements of a small residential area in Kasuga City, Fukuoka. The simulation part is developed to estimate the electrical power generated by each component, taking into account the variation of the weather parameters, such as wind, solar irradiation, and ambient temperature. The optimal system design is then based on the Particle Swarm Optimization (PSO) method to find the optimal configuration of the proposed system, using the least-cost perspective approach.
Topics & Concepts
MicrogridSoftware deploymentRenewable energyParticle swarm optimizationPhotovoltaic systemAutomotive engineeringOptimal designComputer scienceWind powerBattery (electricity)Diesel fuelReliability engineeringPower (physics)EngineeringElectrical engineeringOperating systemMachine learningQuantum mechanicsPhysicsHybrid Renewable Energy SystemsEnergy and Environment ImpactsMicrogrid Control and Optimization