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An Optimal Power-Splitting Strategy for Hybrid Storage Systems.pdf (775.0Kb)
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Title
An Optimal Power-Splitting Strategy for Hybrid Storage Systems
Author
CABEZUELO ROMERO, DAVID
Unamuno, Eneko
Author (from another institution)
Anta, Adolfo
Gavriluta, Catalin
Vettoretti, Denis
Research Group
Sistemas electrónicos de potencia aplicados al control de la energía eléctrica
Other institutions
Austrian Institute of Technology (AIT)
Version
Postprint
Rights
© 2024 IEEE
Access
Embargoed access
URI
https://hdl.handle.net/20.500.11984/6750
Publisher’s version
https://doi.org/10.1109/PEDG61800.2024.10667376
Published at
International Symposium on Power Electronics for Distributed Generation Systems (PEDG)  15. Luxemburgo, 23-26 June, 2024
Publisher
IEEE
Keywords
Energy storage
electronic converters
grid services
energy management systems ... [+]
Energy storage
electronic converters
grid services
energy management systems
ODS 7 Energía asequible y no contaminante
ODS 9 Industria, innovación e infraestructura
ODS 11 Ciudades y comunidades sostenibles [-]
Subject (UNESCO Thesaurus)
Electronic technology
Abstract
The wide deployment of inverter-based resources is changing the grid characteristics and demanding rapid changes in the control and operation of power grids. Storage is becoming a key component of thi ... [+]
The wide deployment of inverter-based resources is changing the grid characteristics and demanding rapid changes in the control and operation of power grids. Storage is becoming a key component of this transition, as it can provide a wide palette of services, from fast frequency response to congestion management. This implies a broad range of requirements for the storage units, in terms of energy, power, response times, etc. Hybrid storage systems, combining units with different properties, such as supercapacitors, high-energy or high-power batteries, represent a natural choice that can cover many grid services. These services do not only require active power but also reactive power, and ideally they will be provided by the storage system while optimizing its overall efficiency. In this work we formally derive active and reactive power splitting strategies that minimize the operation losses among all inverters of the hybrid storage system. These strategies are computationally light and do not rely on complex optimizers, thereby facilitating their implementation in embedded systems. A realistic example depicts the clear improvement of this approach against simple power splitting strategies. While our focus lies on hybrid storage systems, the formulation can be applied as well to hybrid power plants, since their power losses can be characterized by similar mathematical functions. [-]
Funder
Comisión Europea
Program
H2020
Number
963527
Award URI
https://doi.org/10.3030/963527
Project
Interoperable, modular and smart hybrid energy storage system for stationary application (ISTORMY)
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  • Conferences - Engineering [421]

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