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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.

Technology: general issues --- Chemical engineering --- 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 ---  

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This book, edited by Prof. Marta Rencz and Prof Andras Poppe, Budapest University of Technology and Economics, and by Prof. Lorenzo Codecasa, Politecnico di Milano, collects fourteen papers carefully selected for the “thermal and electro-thermal system simulation” Special Issue of Energies. These contributions present the latest results in a currently very “hot” topic in electronics: the thermal and electro-thermal simulation of electronic components and systems. Several papers here proposed have turned out to be extended versions of papers presented at THERMINIC 2019, which was one of the 2019 stages of choice for presenting outstanding contributions on thermal and electro-thermal simulation of electronic systems. The papers proposed to the thermal community in this book deal with modeling and simulation of state-of-the-art applications which are highly critical from the thermal point of view, and around which there is great research activity in both industry and academia. In particular, contributions are proposed on the multi-physics simulation of families of electronic packages, multi-physics advanced modeling in power electronics, multiphysics modeling and simulation of LEDs, batteries and other micro and nano-structures.

History of engineering & technology --- lithium-ion battery --- thermal modelling --- electro-thermal model --- heat generation --- experimental validation --- thermal transient testing --- non-destructive testing --- thermal testability --- accuracy repeatability and reproducibility of thermal measurements --- thermal testing standards --- 3D IC --- microchannels --- liquid cooling --- compact thermal model --- thermal simulation --- hotspot --- thermal-aware task scheduling --- DVFS --- statistical analysis --- electronic packages --- detailed thermal model --- Joint Electron Device Engineering Council (JEDEC) metrics --- thermal impedance --- AlGaN-GaN HEMT --- TDTR --- thermal conductivity --- thermal interface resistance --- size effect --- phonon transport mechanisms --- nonlinear thermal model --- SPICE --- pulse transformer --- thermal phenomena --- self-heating --- modelling --- measurements --- BCI-DCTM --- ROM --- modal approach --- BGA --- module temperature --- solar energy --- heat transfer mechanisms --- power LED measurement and simulation --- life testing --- reliability testing --- LM-80 --- TM-21 --- LED lifetime modelling --- LED multi-domain modelling --- Spice-like modelling of LEDs --- lifetime extrapolation and modelling of LEDs --- beyond CMOS --- VO2 --- thermal-electronic circuits --- electro-thermal simulation --- vertical structure --- power LEDs --- thermal pads --- thermal resistance --- optical efficiency --- electronics cooling --- Light-emitting diodes --- CoB LEDs --- multi-domain modeling --- finite volume method --- phosphor modeling --- magnetic nanoparticle --- microfluidics --- CFD --- OpenFOAM --- two-phase solver --- rheology --- LED --- Delphi4LED --- digital twin --- digital luminaire design --- computation time --- Industry 4.0

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

This book, edited by Prof. Marta Rencz and Prof Andras Poppe, Budapest University of Technology and Economics, and by Prof. Lorenzo Codecasa, Politecnico di Milano, collects fourteen papers carefully selected for the “thermal and electro-thermal system simulation” Special Issue of Energies. These contributions present the latest results in a currently very “hot” topic in electronics: the thermal and electro-thermal simulation of electronic components and systems. Several papers here proposed have turned out to be extended versions of papers presented at THERMINIC 2019, which was one of the 2019 stages of choice for presenting outstanding contributions on thermal and electro-thermal simulation of electronic systems. The papers proposed to the thermal community in this book deal with modeling and simulation of state-of-the-art applications which are highly critical from the thermal point of view, and around which there is great research activity in both industry and academia. In particular, contributions are proposed on the multi-physics simulation of families of electronic packages, multi-physics advanced modeling in power electronics, multiphysics modeling and simulation of LEDs, batteries and other micro and nano-structures.

History of engineering & technology --- lithium-ion battery --- thermal modelling --- electro-thermal model --- heat generation --- experimental validation --- thermal transient testing --- non-destructive testing --- thermal testability --- accuracy repeatability and reproducibility of thermal measurements --- thermal testing standards --- 3D IC --- microchannels --- liquid cooling --- compact thermal model --- thermal simulation --- hotspot --- thermal-aware task scheduling --- DVFS --- statistical analysis --- electronic packages --- detailed thermal model --- Joint Electron Device Engineering Council (JEDEC) metrics --- thermal impedance --- AlGaN-GaN HEMT --- TDTR --- thermal conductivity --- thermal interface resistance --- size effect --- phonon transport mechanisms --- nonlinear thermal model --- SPICE --- pulse transformer --- thermal phenomena --- self-heating --- modelling --- measurements --- BCI-DCTM --- ROM --- modal approach --- BGA --- module temperature --- solar energy --- heat transfer mechanisms --- power LED measurement and simulation --- life testing --- reliability testing --- LM-80 --- TM-21 --- LED lifetime modelling --- LED multi-domain modelling --- Spice-like modelling of LEDs --- lifetime extrapolation and modelling of LEDs --- beyond CMOS --- VO2 --- thermal-electronic circuits --- electro-thermal simulation --- vertical structure --- power LEDs --- thermal pads --- thermal resistance --- optical efficiency --- electronics cooling --- Light-emitting diodes --- CoB LEDs --- multi-domain modeling --- finite volume method --- phosphor modeling --- magnetic nanoparticle --- microfluidics --- CFD --- OpenFOAM --- two-phase solver --- rheology --- LED --- Delphi4LED --- digital twin --- digital luminaire design --- computation time --- Industry 4.0