Litcius/Paper detail

Cloud and Edge Computing for Smart Management of Power Electronic Converter Fleets: A Key Connective Fabric to Enable the Green Transition

Daniel Gebbran, Alberto Barragán-Moreno, Pere Izquierdo Gómez, Ramadhani Kurniawan Subroto, Mohammad Mehdi Mardani, Miguel López, Javiera Quiroz, Tomislav Dragičević

2022IEEE Industrial Electronics Magazine20 citationsDOIOpen Access PDF

Abstract

The increasing grid penetration of renewable energy generation, energy storage, and controllable electronic loads [e.g., electric vehicle (EV) chargers, motor drives, and electrolyzers) is making power electronic converters (PECs)—their controllable grid connection interfaces—omnipresent. Therefore, fleets of PECs are becoming key players not only in coordinating the generation and storage but also in unlocking the potential for flexibility within each load. In this article, we discuss how cloud-based platforms and edge devices can allow for interfacing PECs and advanced control algorithms. We present seven different study cases using our own developed cloud-based platform that demonstrate the smart coordination of PECs in a variety of prototypes and real-world solutions. Moreover, the capabilities of cloud and edge computing are highlighted throughout the article at large, effectively characterizing cloud-based control of fleets of PECs as an essential part of the future energy sector.

Topics & Concepts

Cloud computingSmart gridRenewable energyFlexibility (engineering)InterfacingComputer scienceEnergy storageKey (lock)Distributed computingAutomotive engineeringElectrical engineeringEngineeringPower (physics)Operating systemComputer hardwareQuantum mechanicsPhysicsMathematicsStatisticsSmart Grid Energy ManagementMicrogrid Control and OptimizationSmart Grid Security and Resilience
Cloud and Edge Computing for Smart Management of Power Electronic Converter Fleets: A Key Connective Fabric to Enable the Green Transition | Litcius