0000000000529869

AUTHOR

Federico Delfino

0000-0003-2876-2667

showing 2 related works from this author

Distributed optimal power flow for islanded microgrids: An application to the Smart Polygeneration Microgrid of the Genoa University

2016

In this work, the application of an original distributed optimal power flow method to test a microgrid in the Savona area, Italy is proposed. The microgrid shows different types of Distributed Energy Resources (DERs) and is connected to the main grid through a fixed power bus. Due to the high computational speed, the applied distributed Optimal Power Flow can be performed almost in real time, i.e. every 5 minutes or less. The operating solution found for generators, simply using local information, corresponds to a suboptimal condition with reduced losses, bus voltages and line currents within constrained intervals. The distributed optimization algorithm is iterative, but also fast. It is ba…

distributed optimization micro-grids optimal power flowbusiness.industryBusbarHeuristic (computer science)Computer science020209 energyComputer Science Applications1707 Computer Vision and Pattern Recognitionmicro-grids02 engineering and technologyMicro-gridGridDistributed optimizationEvery 5 minutesSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaPower flowComputer Networks and CommunicationControl theoryDistributed generationUrban Studie0202 electrical engineering electronic engineering information engineeringMicrogridbusinessOptimal power flowSimulationVoltage2016 IEEE International Smart Cities Conference (ISC2)
researchProduct

Environmental Assessment of a Hybrid Energy System Supporting a Smart Polygeneration Micro-grid

2022

To support the global transition towards a climate-neutral economy by 2050, countries all over the world are implementing low carbon and energy effi ciency policies. This is leading to a rapid increase in the installations of distributed generation technologies. A hybrid system consisting of two or more energy sources could provide a more reliable supply of energy and mitigate storage require ments. In this context, this paper develops an environmental early analysis by the employment of a simplified Life Cycle Assessment approach. The above mentioned approach is used to investigate the environmental performances of the hybrid energy system of the smart polygeneration micro-grid of the Univ…

Settore ING-IND/11 - Fisica Tecnica AmbientaleEnvironmental impacts · Energy storage system · Renewable energy systems · Smart grid
researchProduct