About the Journal

International Journal of Smart Grid and Sustainable Energy Technologies (IJSGSET)

The International Journal of Smart Grid and Sustainable Energy Technologies (IJSGSET) is an international, peer-reviewed, open access journal dedicated to the dissemination of high-quality research in the field of electrical engineering, with a particular focus on smart grid systems, renewable energy integration, and sustainable energy technologies.

The journal publishes original research articles and review papers that contribute to the advancement of theory, design, analysis, and practical applications in modern power and energy systems. IJSGSET serves as a platform for researchers, academics, and industry practitioners to present innovative solutions addressing current and emerging challenges in energy sustainability and grid modernization.

IJSGSET is published annually in August, with each issue comprising a minimum of five (5) rigorously reviewed articles. All submissions undergo a double-blind peer review process, ensuring objectivity, academic integrity, and scientific rigor, in accordance with international publishing standards and ethical guidelines recommended by the COPE.

As an open access journal, IJSGSET provides immediate and unrestricted access to its content, promoting the global exchange of knowledge. The journal operates under a no publication fee policy, meaning that no article processing charges (APCs) or submission fees are required from authors.

Focus and Scope

The International Journal of Smart Grid and Sustainable Energy Technologies (IJSGSET) publishes high-quality research contributions in the field of modern power and energy systems, with emphasis on smart grids, renewable energy integration, and sustainable energy technologies. The journal covers, but is not limited to, the following areas:

  1. Smart Grid Technologies and Applications
  • Design, modeling, and implementation of smart grid systems
  • Advanced metering infrastructure (AMI) and smart grid communications
  • SCADA systems, monitoring, and control of power networks
  • Cyber-physical systems and digitalization of power systems
  1. Renewable Energy and Distributed Generation
  • Integration of renewable energy sources into power systems
  • Solar, wind, hydro, biomass, and hybrid energy systems
  • Distributed generation and microgrid technologies
  • Grid-connected and off-grid renewable energy systems
  1. Power System Analysis, Stability, and Control
  • Power system modeling, simulation, and analysis
  • Transient, dynamic, and voltage stability
  • Power system control and operation strategies
  • Energy management systems and distribution automation
  1. Power Electronics and Energy Conversion
  • Power electronic converters and applications in power systems
  • Integration of power electronics in renewable energy systems
  • Flexible AC Transmission Systems (FACTS) and HVDC technologies
  • Electrical machines, drives, and control techniques
  1. Power Quality, Protection, and Reliability
  • Power quality assessment and mitigation techniques
  • Protection systems, relaying, and fault analysis
  • Reliability, resilience, and security of power systems
  • Fault diagnosis in electrical machines and drives
  1. Optimization, Computational Methods, and Artificial Intelligence
  • Artificial intelligence and machine learning applications in power systems
  • Optimization techniques for energy generation, dispatch, and delivery
  • Computational methods for smart grid analysis and control
  • Data-driven approaches for energy systems
  1. Energy Systems and Market Challenges
  • Restructured and deregulated power systems
  • Energy policy, planning, and market mechanisms
  • Sustainable energy utilization and efficiency
  • Emerging challenges in modern energy systems