Grid Blackout Area PV System Stand-Alone Operation Simulation Model
Abstract
A stand-alone setup is widely utilized for PV systems. Power fluctuations are normal in an energy-generating system based on solar photovoltaics (PV). When solar PV systems are operated off-grid to meet local power demands for a dependable power supply, alternative energy sources, such as hybrid grid-tied or energy storage systems, may be found. This study proposes a practical solution to the power generation problem in the home market using a novel PV system that can operate both grid-connected and stand-alone. The system includes a block of storage battery with enough dimensions to ensure the continuous power supply of a residential building with an average electricity demand of 10 kWhA stand-alone setup is widely utilised for PV systems. Power fluctuations are normal in an energy-generating system based on solar photovoltaics (PV). When solar PV systems are operated off-grid to meet local power demands for a dependable power supply, alternative energy sources, such as hybrid grid-tied or energy storage systems, may be found. This study proposes a practical solution to the power generation problem in the home market using a novel PV system that can operate both grid-connected and stand-alone. The system includes a block of storage battery with enough dimensions to ensure the continuous power supply of a residential building with an average electricity demand of 10 kWh.





