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 16th-19th 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, renewable energy systems, energy storage like batteries and supercapacitors, fuel cells, and wireless power transfer. The contributions included in Volume 1 will be particularly focused on electrical engineering simulation aspects and innovative applications.
Part I: Control and Power Management of Electrical Systems.
Chapter
1.
Performance Analysis of a Hardware in the Loop based Emulation of a Naval
Propulsion System associated with Supercapacitor Energy Storage.
Chapter
2.
Real-time simulation of an electric ship in normal and faulty conditions.-
Chapter
3. Neural network model for aggregated photovoltaic generation
forecasting.
Chapter
4. Electrification of river freight: current status and
future trends in Europe.
Chapter
5. Average Model-based Sliding Mode Control
Schemes of Bidirectional Boost DC-DC Converters.
Chapter
6. Voltage
unbalance compensation of Flying Capacitor based on a dynamic Pulse Width
Modulation applied to a Flying Capacitor leg inverter.
Chapter
7. Control
Strategy for Orbital O2 Tidal System Based on EMR model.
Chapter
8. A Hybrid
Fourier and Wavelet-based Method for the Online Detection and
Characterization of Subsynchronous Oscillations.
Chapter
9. Optimal Sizing
for Fuel Cell Hybrid PowerSources Under Reliability and Energy Performance
Indexes.
Chapter
10. Compliance evaluation of WTG and WPP controllers for
self and black start operation.
Chapter
11. Experimental study of the cold
start capabilities of a closed cathode PEM fuel cell.- Part II: Modelling and
Simulation of Power Electronics Systems.
Chapter
12. Discussion on
classification methods for lifetime evaluation of a lab-scale SiC MOSFET
power module.
Chapter
13. Dielectric Material Significance on Common Mode
Transient Immunity of a Shielded Pulse Planar Transformer.
Chapter
14.
Transient modeling and simulation of power converter including parasitic
elements.
Chapter
15. Enhanced Static and Dynamic Modeling of a
Series-Series Inductive Power Transfer System with a Buck Post-Regulator.-
Chapter
16. Design and Optimization of a Post-Regulated Inductive Power
Transfer System with a Series-Series Compensation.
Chapter
17. PWM-Induced
Current Modelling in Stator Slots with Multiple Stacked Coils.
Chapter
18.
Current Sensor Fault Tolerant Control for a Synchronous Machine Based on
Stator Current Estimation.
Chapter
19. Investigating and Modeling the Soft
Switching Losses of IGBTs Under Zero Current Switching Conditions.
Chapter
20. Design and Control of a Synchronous Interleaved Boost Converter based on
GaN FETs for PEM Fuel Cell Applications.
Chapter
21. Electromagnetic
Transient Modeling of Power Electronics in Modelica, Accuracy and Performance
Assessment.
Chapter
22. Fuse on PiN silicon diode monolithic integration for
new fail-safe power converters topologies.- Part III: Microgrids and Smart
Grids.
Chapter
23. A Distributed Secondary Control for Autonomous AC
Microgrid based on Photovoltaic and Energy Storage Systems.
Chapter
24.
Behavioural modelling of multi-MW hybrid PV / Diesel modular power plant.-
Chapter
25. Simulation and Operation Analysis of a Smart Grid using
Simulink.
Chapter
26. Modelling and Optimization of Power Allocation and
Benefit Sharing in a Local Energy Community.
Chapter
27. Social data to
enhance typical consumer energy profile estimation on a national level.-
Chapter
28. Small signal stability study for island distributed generation
system controlled by IDA-PBC-IA and power decoupled droop control.
Chapter
29. MANA-Based Load-Flow Solution for Bipolar DC Microgrids.
Chapter
30.
Analysis and Assessment of a Commercial Microgrid Laboratory Platform.-
Chapter
31. A Review of Frequency Control Techniques using Artificial Neural
Network for Urban Microgrid applications.
Chapter
32. Stator Interturn
Short-Circuits Detection in the PMSM Drive by using Current Symmetrical
Components and Selected Machine Learning Algorithms.- Part IV - Energy
Storage Systems.
Chapter
33. Potential operation of battery systems to
provide automatic Frequency Reserve Restoration (aFRR) service.
Chapter
34.
Incremental Capacity Analysis as a diagnostic method applied to second life
Li-ion batteries.
Chapter
35. A Li-ion battery charger with embedded signal
generator for on-board electrochemical impedance spectroscopy.
Chapter
36. A
survey of Energy Management Systems considering battery state of health
preservation in microgrid applications.
Chapter
37. Impedance modeling for
multichannel EIS in industrial scale vanadium redox flow batteries.
Chapter
38. Numerical assessment of cooling systems for thermal management of
lithium-ion batteries
Chapter
39. Modeling of the thermal runaway
phenomenon of cylindrical 18650 Li-ion cells.- Part V.- Optimisation in
Complex Electrical Systems.
Chapter
40. User experience inquiry to specify
COFFEE: a Collaborative Open Framework For Energy Engineering.
Chapter
41.
Optimal Sizing of Tramway Electrical Infrastructures using Genetic
Algorithms.
Chapter
42. A Comparative Study of Existing Approaches for
Modeling the Incident Irradiance in Bifacial Panels
Chapter
43.
Self-adaptive construction algorithm of a surrogate modelfor an electric
powertrain optimization.
Chapter
44. Optimization of Neural Network-based
Load Forecasting by means of Whale Optimization Algorithm.- Part VI -
Modelling and Simulation of Electrical Machines and electromagnetic devices.-
Chapter
45. Estimation of Steady-State Torque of Line Start Permanent Magnet
Synchronous Motor using Reluctance Network Approach.
Chapter
46. An Overview
of High-Speed Axial Flux Permanent Magnets Synchronous Machines.
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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