Microgrid-Based Solar Photovoltaic Battery Simulation Model

This paper presents a microgrid-based simulation model for solar photovoltaic battery systems, which enables accurate prediction of solar cell efficiency and power generation. The model integrates the physical characteristics of photovoltaic cells with microgrid structural principles, implementing algorithms to match photovoltaic output power with microgrid load demands. This simulation approach incorporates key functions for modeling solar irradiance conversion, battery storage dynamics, and power flow coordination. Through computational implementations that simulate environmental variables and load profiles, the model effectively evaluates solar battery performance under diverse operating conditions. The simulation framework provides critical reference data for solar power system design optimization, featuring parameter tuning capabilities for different photovoltaic technologies and microgrid configurations. The model's architecture supports real-time performance monitoring and scenario analysis through modular code components that handle power conversion efficiency calculations and load balancing algorithms.