This book collects a selection of papers presented at ELECTRIMACS 2024. The conference papers deal with modelling, simulation, analysis, control, power management, design optimization, machine learning techniques, and 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 and energy storage systems, batteries, supercapacitors and fuel cells, and wireless power transfer, among others. Contributions included in Volume 1 are particularly focused on electrical engineering simulation aspects and innovative applications.
Chapter
1. A Controller Hardware-Enhanced Virtual Laboratory for
Testing, Teaching, and Training in Battery Energy Storage Systems.
Chapter
2. A CSI-7 inverter for low voltage DC source photovoltaic applications using
a CockroftWalton voltage doubler based DC-link.
Chapter
3. A hybrid
intelligence model forecasts the voltage of a battery used in electric
vehicles.
Chapter
4. A Simple Control Algorithm to Reduce the DC Current
Level in a CSI-UPQC.
Chapter
5. A Simulation Platform for Dynamic
Equalization Analysis in Second-Life Lithium-Ion Batteries.
Chapter
6.
Advanced MFD Simulation in Aerial Power Lines Facilities using CRMag PLUS.-
Chapter
7. Aging-Aware Electric Vehicle Simulation Platform for Battery
Charging Strategy Optimization.
Chapter
8. An Overview of Optimization
Approaches Dealing with the Uncertainty Associated with Electric Vehicles.-
Chapter
9. Analysis of electrical consumption in university centers. Case
study of the School of Engineering
Chapter
10. Analysis of Low Voltage Ride
Through Capability in Multiport Converters for Soft Open Point Applications.-
Chapter
11. Artificial Neural Network-Based Fast Power Reserve Control for
Active Power Balancing.
Chapter
12. Assessing Onboard Charger Effects in
High Inverter-Based Resource Penetration Scenarios.
Chapter
13. Battery
temperature estimation based on impedance features.
Chapter
14. Comparative
assessment of energy production of bifacial and monofacial photovoltaic
modules in floating installations.
Chapter
15. Comparison Between Axial Flux
BLDC and Axial Flux PMSM for High Speed and Low Power Application.
Chapter
16. Comparison of Modular Multilevel and Flying Capacitor Converters Made of
Wide Bandgap Switches for New MVDC Grids.
Chapter
17. Comprehensive Analysis
of Power Electronics in an Offshore Wind Turbine Architecture with a 15
MW-Doubly Excited Synchronous generator.
Chapter
18. Control of an Hybrid
AC/DC MG Using Raspberry Pi.
Chapter
19. Control of Dual Asymmetric
Alternate Arm HVDC Converter under AC and DC Network Faults.
Chapter
20.
Control of hybrid renewable energy and storage-integrated multi-energy
microgrid with electric and gas boiler, electric vehicle, and household
loads.
Chapter
21. Design and control procedure for a step-down USB
charger/discharger.
Chapter
22. Design and Validation of an Optimized Energy
Management Strategy for an off-grid PV system based on an Adaptive Fuzzy
Control.
Chapter
23. Detection of partial shadowing occurrence in
photovoltaic arrays.
Chapter
24. Development an Artificial Intelligence
Diagnostic System for Low-Profile Wind Turbine Equipment.
Chapter
25.
Development of a Li-ion Battery Module Digital Twin using Matlab Toolboxes.-
chapter
26. Electrical characterization of Vanadium Flow Battery-Cell Test
Facility (VFB-CTF): early results and methods for scaling up.
Chapter
27.
Evaluation of Energy Options for Island Communities: A Case Study on Ushant.-
Chapter
28. Extending the high-voltage side operating range of a multi-port
smart transformer.
Chapter
29. Fault management system prototype for
photovoltaic arrays: study case.
Chapter
30. Fully Integrated
Optical-Electrical-Thermal Model of Bifacial Photovoltaic Modules for Energy
Yield Assessment.
Chapter
31. Genetic Algorithm-Based Optimization for
Sizing Tramway Electrical Infrastructures. Application to a Real Study Case.-
Chapter
32. Identification of the Region of Attraction of Synchronous
Machines and Grid-Following Converters Through Reverse Trajectories.
Chapter
33. Impact of including ventilation on the energy flexibility of educational
buildings when optimizing energy consumption.
Chapter
34. Influence of
parameter identification choices on a Li-ion battery electric model.
Chapter
35. Innovative Solutions for Renewable Energy and Storage Integration using
Grid-Tied Cascaded H-Bridge Converters.
Chapter
36. Introducing
dissymmetrical inductances in the Modular Multilevel DC converter (M2DC).-
Chapter
37. Long-range and cost-effective Communication Architecture for
Rural MG Clusters Control and Management: an Ethiopian case study.
Chapter
38. LOSSES BALANCE STRATEGY IN MULTI-STACK HYDROGEN FUEL CELL SYSTEM FOR A
MARITIME PASSENGER TRANSPORT.
Chapter
39. Machine learning classification of
power converter control mode.
Chapter
40. Mapping of Optimal Locations for
the Installation of Solar Power Plants to Support the Transition of the
Energy Matrix in the Galapagos Islands.
Chapter
41. Methodology for
Electrochemical Impedance Spectroscopy in PV panels using power converters.-
Chapter
42. Methods for determining the magnetic state of permanent magnets
on rotors, in a perspective of End of Life of electric machines.
Chapter
43.
Microgrid power dispatch in off-grid regions: Benefits of power line links
between small populations. Application to Guaviare region in Colombia.-
Chapter
44. Modelling time-variable green hydrogen production with a PEM
electrolyser coupled with photovoltaic energy.
Chapter
45. Offline real-time
high frequency data logging based methodology for PMSM observer design.-
Chapter
46. Photovoltaic modules single-diode model parametric identification
by means of implicit and explicit approaches.
Chapter
47. Power Sharing in
an Islanded Single-Phase Microgrid: Performance Analysis of Droop Control
Strategies.
Chapter
48. Refined TMY Data Generation Method for Accurate
Sizing of Bifacial PV Module-Based Micro-grids in Snowfall-Prone Climates.-
Chapter
49. Sensorless Trapezoidal Control of Brushless Permanent Magnet
Motors: Review on Back EMF Position Sensing techniques.
Chapter
50. Ship
Fuel Consumption Reduction through Variable-Speed Generation under
Coordinated Control and Management Systems.
Chapter
51. Smart fuzzy logic
based agricultural greenhouse irrigation system.
Chapter
52. Study on the
adaptation of a residential building development in Spain for the integration
of electric vehicles.
Chapter
53. Temperature Effect on the Open Circuit
Voltage of Lithium-Ion Battery.
Chapter
54. The use of Artificial
Intelligence for the Unit Commitment Problem: State of the Art.
Chapter
55.
Thermal Camera Prototype for Predictive Maintenance in Photovoltaic
Applications Based on TinyML Embedded System.
Chapter
56. Thermal modelling
of fire propagation in lithium-ion batteries using FDS.
Chapter
57. Towards
Better Grounding Designs: Simplified Estimation of Two-Layer Soil Parameters
based on a Greedy Algorithm.
Chapter
58. Voltage Tracking of PV with a
Nonlinear Controller in DC Microgrid: An Experimental Verification using
Hardware-in-the-Loop.
Enrique Belenguer holds a Ph.D. in Industrial Engineering from the Polytechnic University of Valencia and is an associate professor in the Electrical Engineering area of the Department of Industrial Systems Engineering and Design of Universitat Jaume I. His current research areas include (i) Connection of offshore wind farms through DC links, (ii) Integration of renewable energy into the power grid: storage, distributed generation, etc. and (iii) Development of methods for improving energy efficiency. He has been a Professor of Electrical Engineering since 1993, and his teaching profile covers most of the subjects in the field: Electrotechnics, Electrical Machines, Control of Electrical Machines, Power Electronics, Low Voltage Electrical Installations, Lighting Installations, High Voltage Lines and Electrical Installations, Power Systems, and Power Plants.
Héctor Beltrįn (holding a degree in Industrial Engineering, 2004, from Jaume I University, and a Ph.D. in Electrical Engineering, 2011, from the Polytechnic University of Catalonia) has been an Associate Professor in the area of Electrical Engineering since 2020. He has been affiliated with Jaume I University (UJI) in Castelló since 2006. Previously, he worked for 14 months at the European Organization for Nuclear Research (CERN) in Geneva, and in 2004, he joined the Institute of Energy Technology (ITE) in Valencia as a researcher. His research work, focused on the large-scale integration of renewable energy into the system and electrical markets, energy storage systems, and batteries (modeling, characterization, and aging studies), is carried out in the Department of Industrial Systems Engineering and Design at Jaume I University.
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