Quantifying power and energy fluctuations of photovoltaic systems

Abstract: The high share of power generation based on fluctuating renewable energy sources, especially wind and solar, has increased the levels of variability and uncertainty in power systems. The aim of this study is to develop a method for quantifying the variability of photovoltaic (PV) systems. The developed method investigates the power measurements of a PV system and quantifies its power and energy fluctuations in three steps. The first includes a classification of days into three classes according to the variabil… Show more

“…Photovoltaic self-consumption refers to the possibility for any type of electricity-consuming producer to connect a photovoltaic installation, sized according to their needs, either solely to their electrical system or in a shared mode between their electrical system and the local grid based on fluctuations in production and consumption [1,2,3]. It plays a significant role in energy transition and the development of renewable energies [4,5,6].…”

Experimental analysis of a photovoltaic self-consumption system for the offices of a local company

“…Photovoltaic self-consumption refers to the possibility for any type of electricity-consuming producer to connect a photovoltaic installation, sized according to their needs, either solely to their electrical system or in a shared mode between their electrical system and the local grid based on fluctuations in production and consumption [1,2,3]. It plays a significant role in energy transition and the development of renewable energies [4,5,6].…”

Experimental analysis of a photovoltaic self-consumption system for the offices of a local company

Supplying electricity and heat to low-energy residential buildings by experimentally integrating a fuel cell electric vehicle with a docking station prototype

An analytical method for quantifying the flexibility potential of decentralised energy systems