This book collects a selection of papers presented at ELECTRIMACS 2021, the 14th international conference of the IMACS TC1 Committee, held in Nancy, France, on 17st-21rd May 2022. The conference papers deal with modelling, simulation, analysis, control, power management, design optimization, identification and diagnostics in electrical power engineering. The main application fields include electric machines and electromagnetic devices, power electronics, transportation systems, smart grids, electric and hybrid vehicles, renewable energy systems, energy storage, batteries, supercapacitors and fuel cells, and wireless power transfer. The contributions included in Volume 2 are particularly focused on methodological aspects, modelling, and applied mathematics in the field of electrical engineering.
Chapter
1. Efficiency maps of synchronous machines based on electrical
circuits modelling.
Chapter
2. Losses prediction in the frequency domain for
voltage source einverters.
Chapter
3. Online detection of PV degradation
effects through ANN Classifier.
Chapter
4. Modeling the non-linearities of
charge-transfers and solid electrolyte nterphase resistances for a sodium-ion
battery with hard carbon electrode.
Chapter
5. Experimental Development of
Embedded Online Impedance Spectroscopy of Lithium-Ion Batteries Proof of
concept and Validation.
Chapter
6. An Improved Maximum Power Point Tracking
for Photovoltaic Distributed Energy System associated with a Shunt Active
Power Filter.
Chapter
7. Modeling battery aging through high-current
incremental capacity features in fast charge cycling.
Chapter
8. Fully
decentralized control strategy for synchronous open-winding motors.
Chapter
9. Quasi 3D Reluctance Network Modeling of an Axial Flux Switched Reluctance
Machine.
Chapter
10. A Voltage-Controlled Split-pi Converter Interfacing a
High-Voltage ESS with a DC Microgrid: Modeling and Experimental Validation.-
Chapter
11. Co-simulation domain decomposition algorithm for hybrid
EMT-Dynamic Phasor modelling.
Chapter
12. Uncertainties Impact and
Mitigation with an Adaptive Model-Based Voltage Controller.
Chapter
13.
Consensus-based distributed primary control for accurate power sharing in
islanded mesh microgrids.
Chapter
14. Model-free Detection of Distributed
Solar Generation in Distribution Grids Based on Minimal Exogenous
Information.
Chapter
15. Model-free Detection of Distributed Solar
Generation in Distribution Grids Based on Minimal Exogenous Information.-
Chapter
16. Load Consumption Characterization and Tariff design based on Data
Mining Techniques.
Chapter
17. Energy management system by deep
reinforcement learning approach in a building microgrid.
Chapter
18.
Passivity based control of two distributed generations in DC microgrid.-
Chapter
19. AnImproved Control of High Efficiency Series Converter for Fuel
cell/Supercapacitor Hybrid System.
Chapter
20. Photovoltaics at the electric
mobilitys service: French case study.
Chapter
21. Enhanced performances of
the DFIG power control using the exponential reaching law based sliding mode
control.
Serge Pierfederici received the Dipl.-Ing. from the Ecole Nationale Supérieure d'Electricité et Mécanique, Nancy, France, in 1994, and the Ph.D. degree from the Institut National Polytechnique de Lorraine, Nancy, France, in 1998, all in electrical engineering. Since 2009, he has been engaged as a Full Professor at the University of Lorraine, Nancy, France. He is authored and coauthored more than 200 papers which are published in the international peer-reviewed journals. His research interests include the stability study of distributed power systems, modeling, and control of power electronic systems, and distributed control of multisources and multicarrier microgrids. Dr. Pierfederici was the recipient of several IEEE awards and he serves on the Editorial Boards of the international peer-reviewed journals.
Jean-Philippe Martin received the graduation degree in electrical engineering from the University of Nancy, Nancy, France, in 1999 and the Ph.D. degree in electrical engineering from the Institut National Polytechnique de Lorraine (INPL), Nancy, France in 2003. Since 2004, he is an Associate Professor at University of Lorraine and member of the LEMTA since January 2018. His research interests include DC and AC microgrid with centralized or decentralized control, multi-vector microgrid combining electrical, thermal and hydrogen vectors, stability study of distributed power system, static converter architectures and their interactions with fuel cell and photovoltaic system.
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