Mathematical Problems in Engineering

Computational Intelligence Techniques for Realization of Power Electronic Converters for Next Generation Grids


Publishing date
01 Aug 2022
Status
Closed
Submission deadline
25 Mar 2022

Lead Editor

1Botswana International University of Science and Technology, Palapya, Botswana

2University of Malaysia, Pahang, Malaysia

3Kongu Engineering College, Perundurai, India

This issue is now closed for submissions.

Computational Intelligence Techniques for Realization of Power Electronic Converters for Next Generation Grids

This issue is now closed for submissions.

Description

Power systems have experienced a significant transformation all over the world. Productivity has been improved with the help of modern power electronics. Modeling and simulation of power electronics is the most important element for modern smart grid and renewable energy systems. The penetration of power electronic devices interfaced with the smart grid and renewable energy systems strongly characterize the conventional power systems.

Power electronics use high power, high efficiency semiconductor devices to convert DC to AC, AC to DC, and to control the electrical power. The converters are widely employed in commercial, manufacturing, transportation, and other utility systems. Modern industrial automation achieved through the modern power electronic devices include renewable energy systems like solar photovoltaics (PV), wind power systems, electric and hybrid vehicles, and energy storage systems. The control of power electronic converters with the use of artificial and deep learning techniques can achieve optimum design, energy management control, and reliability in the smart grid.

This Special Issue aims to collate papers that describe computational intelligence techniques for model-free control and fault diagnosis in the following application domains: electric power systems, power generators and power electronics, photovoltaic units, fuel cells units, synchronous generators, permanent magnet synchronous generators, doubly-fed induction generators, doubly- fed reluctance generators, gas-turbine electric power units, hybrid-excited synchronous generators, steam-turbine electric power units, wind-turbine electric power units, hydropower generators, multi-phase generators, distributed electric power transmission and distribution systems, power electronics such as DC-DC converters, DC-AC inverters, AC-DC converters, DC-AC inverters and active power filters, power transformers, batteries and capacitors, VSC-HVDC transmission systems, and components of the smart grid. Original research and review articles are welcome.

Potential topics include but are not limited to the following:

  • Mathematical modeling and simulation of power electronic converters
  • Modeling and simulation of power electronic converters in renewable energy systems using artificial intelligence techniques
  • Deep learning-based mathematical model of HVDC transmission systems with simulation
  • Artificial intelligent techniques for modeling control and simulation of battery energy storage systems
  • Simulation of wind turbine generators
  • Hybrid AC/DC micro grid test system simulation
  • Grid simulation and power hardware in the loop
  • Numerical simulation analysis of photo voltaic and energy storage systems
  • FPGA-based embedded real time simulation of electrical smart grid
  • Real time simulator for power quality applications
  • Modeling and control of standalone PV systems
  • Device-level real-time modeling and simulation of power electronic converters
  • Real-time simulation of power system wide area protection
  • Cyber physical systems: modeling, simulation, and validation
  • Modeling and control tools for grid-to-vehicle or vehicle-to-grid integration

Articles

  • Special Issue
  • - Volume 2024
  • - Article ID 9797619
  • - Erratum

Erratum to “Dynamic Equivalent Modeling of Wind Farm Based on Dominant Variable Hierarchical Clustering Algorithm”

Wenbo Jiang | Mingyue Zhong
  • Special Issue
  • - Volume 2022
  • - Article ID 7582036
  • - Research Article

Modified High Gain DC-DC Converter with APICs for Microgrid

G. Amritha | G. Kanimozhi | ... | Kiran Ramaswamy
  • Special Issue
  • - Volume 2022
  • - Article ID 4651084
  • - Research Article

Mathematical Modeling of Real-Time Systems Using Heun and Piecewise Methods

Urfa Malik Gul | Anand Paul | K.-W.-A. Chee
  • Special Issue
  • - Volume 2022
  • - Article ID 4418329
  • - Research Article

Optimization and Design of a Sustainable Industrial Grid System

Samat Iderus | Geno Peter | ... | Aruna Rai Vadde
  • Special Issue
  • - Volume 2022
  • - Article ID 7157334
  • - Research Article

Mathematical Model for Energy and Exergy-Based Simulation of Triangular Solar Energy Extractor for Air Heating Applications

C. Ramesh | M. Vijayakumar | ... | Habtewolde Ababu Birhanu
  • Special Issue
  • - Volume 2022
  • - Article ID 7020979
  • - Research Article

An Improved Power Quality Disturbance Detection Using Deep Learning Approach

Kavaskar Sekar | Karthick Kanagarathinam | ... | C. Udayakumar
  • Special Issue
  • - Volume 2022
  • - Article ID 7403691
  • - Research Article

Power-Sharing Analysis of Hybrid Microgrid Using Iterative Learning Controller (ILC) considering Source and Load Variation

S. Angalaeswari | K. Jamuna | ... | Kiran Ramaswamy
  • Special Issue
  • - Volume 2022
  • - Article ID 3888571
  • - Research Article

Performance Enhancement of a Three Phase Boost-Cascaded Fifteen Level Inverter Using the PI Controller

S. Sathish Kumar | R. Ramkumar | ... | Martin Sankoh
  • Special Issue
  • - Volume 2022
  • - Article ID 2401261
  • - Review Article

A Bridgeless LUO Converter with Glowworm Swarm Optimized Tuned PI Controller for Electrical Applications

M. Sivaramkrishnan | M. Siva Ramkumar | ... | Nyagong Santino David Ladu
  • Special Issue
  • - Volume 2022
  • - Article ID 1984595
  • - Research Article

Equivalent Circuit Analysis of Linear Phase-Shifting Transformer with End Effect

Mei Wu | Jinghong Zhao | ... | Yiyong Xiong
Mathematical Problems in Engineering
 Journal metrics
See full report
Acceptance rate11%
Submission to final decision118 days
Acceptance to publication28 days
CiteScore2.600
Journal Citation Indicator-
Impact Factor-
 Submit Check your manuscript for errors before submitting

Article of the Year Award: Impactful research contributions of 2022, as selected by our Chief Editors. Discover the winning articles.