Buchumschlag

Power Electronics and Energy Management for Battery Storage Systems

The deployment of distributed renewable generation and e-mobility systems is creating a demand for improved dynamic performance, flexibility, and resilience in electrical grids. Various energy storages, such as stationary and electric vehicle batteries, together with power electronic interfaces, wil...

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Gespeichert in:
Format: Online
Sprache:Englisch
Veröffentlicht: MDPI - Multidisciplinary Digital Publishing Institute 2022
Schlagworte:
high-gain non-inverting buck-boost converter
continuous conduction mode (CCM)
discontinuous conduction mode
electric vehicles
stationary battery energy storage system
battery automated system
online state estimation
thermal modeling
first-order model
second-order model
Kalman filtering
impedance network
Z-source
quasi-Z-source
voltage source inverter
voltage distortions
machine learning
Kalman filter
thermal modelling
online prediction
electromagnetic impedance spectroscopy
computational cost
ANPC converter
EV charging
multilevel converter
PWM methods
SiC MOSFETs
residential energy storage
battery energy storage systems
standards
grid interfaceconverters
intellectual property
bidirectional converters
AC-DC power converters
DC-DC powerconverters
multilevel converters
partial power converters
 
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TD Industrial chemistry and manufacturing technologies::TDC Industrial chemistry and chemical engineering
Online-Zugang:ONIX_20221025_9783036552774_83
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Zusammenfassung:The deployment of distributed renewable generation and e-mobility systems is creating a demand for improved dynamic performance, flexibility, and resilience in electrical grids. Various energy storages, such as stationary and electric vehicle batteries, together with power electronic interfaces, will play a key role in addressing these requests thanks to their enhanced functionality, fast response times, and configuration flexibility. For the large-scale implementation of this technology, the associated enabling developments are becoming of paramount importance. These include energy management algorithms; optimal sizing and coordinated control strategies of different storage technologies, including e-mobility storage; power electronic converters for interfacing renewables and battery systems, which allow for advanced interactions with the grid; and increase in round-trip efficiencies by means of advanced materials, components, and algorithms. This Special Issue contains the developments that have been published b researchers in the areas of power electronics, energy management and battery storage. A range of potential solutions to the existing barriers is presented, aiming to make the most out of these emerging technologies.

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