Aims
Journal of Sustainability for Energy (JSE) is an innovative open-access journal focused on the multifaceted aspects of energy sustainability. Its mission is to publish groundbreaking applied research spanning a wide array of disciplines related to sustainable energy use. JSE serves as a platform for disseminating innovative approaches that enhance sustainable energy practices. The journal welcomes a variety of submissions including reviews, research papers, short communications, and Special Issues on specific topics, particularly those that bridge the gap between research, development, and practical implementation.
JSE aims to inspire scientists to publish comprehensive theoretical and experimental results, with no limitations on paper length to ensure detailed and replicable findings. Distinctive features of JSE include:
Every publication benefits from prominent indexing, ensuring widespread recognition.
A distinguished editorial team upholds unparalleled quality and broad appeal.
Seamless online discoverability of each article maximizes its global reach.
An author-centric and transparent publication process enhances submission experience.
Scope
JSE's scope is extensive and diverse, differentiating it from other journals in its field by covering:
Carbon Reduction: Focuses on methods and technologies aimed at reducing carbon emissions, including carbon capture and storage, as well as policies and practices for lowering the carbon footprint in energy production and usage.
Clean Energy Conversion and Utilization: Explores innovative approaches to converting and utilizing clean energy sources, such as solar, wind, and hydroelectric power, to reduce reliance on fossil fuels.
Energy Sustainability: Investigates sustainable energy practices, including the development of renewable energy sources, energy efficiency improvements, and long-term sustainability strategies in energy production and consumption.
Life Cycle Assessment: Detailed examination of the environmental impact of energy systems throughout their entire life cycle, from production to disposal, including assessments of resource consumption and emissions.
Environmental Pollution Reduction: Studies focused on reducing pollution caused by energy production and usage, such as emissions from power plants, industrial processes, and transportation.
Climate Change Mitigation: Research on how energy systems can be optimized to mitigate the effects of climate change, including strategies for reducing greenhouse gas emissions and adapting to changing climate conditions.
Distributed Energy Systems: Analysis of decentralized energy systems, such as microgrids and distributed generation, which can enhance energy resilience and sustainability at a local level.
Advanced Conversion Technologies: Articles on cutting-edge technologies for converting various forms of energy into usable power, with a focus on efficiency and reducing environmental impact.
Innovative Technologies in Fossil and Renewable Energy: Exploration of new technologies in both fossil fuel-based and renewable energy sectors, aiming to improve efficiency and sustainability.
Integrated Energy Systems: Studies on the integration and optimization of different energy sources and systems to create more efficient and sustainable energy solutions.
Sustainable Energy Systems: Covers the development, implementation, and optimization of systems designed for sustainable energy production, distribution, and consumption.
Renewable Energy: Detailed research on advancements in renewable energy technologies, such as solar panels, wind turbines, and bioenergy, and their integration into existing energy systems.
Optimization of Energy Processes: Techniques and methodologies for enhancing the efficiency and effectiveness of energy-related processes, including production, distribution, and consumption.
Smart Materials for Energy Reduction Management: Focus on the use of innovative materials and technologies for reducing energy consumption in various applications.
Integration of Smart and Flexible Systems: Articles on combining intelligent technology solutions with flexible operational systems for optimal energy management and efficiency.
Smart Grids and Mini/Micro Grids: Research on the development and implementation of smart grids and smaller-scale grid systems that enhance energy distribution efficiency and reliability.
Smart grids and mini/micro grids
IoT Systems for Energy Savings: Studies on the application of Internet of Things (IoT) technologies in monitoring, controlling, and optimizing energy usage for maximum savings.
Energy Conservation Strategies: Strategies and policies aimed at conserving energy across various sectors, including industrial, commercial, and residential applications.
Energy Storage: In-depth analysis of energy storage technologies and methods, including batteries, thermal storage, and pumped hydro storage, and their role in stabilizing energy grids.
Impacts of Energy Policies: Evaluation of the environmental, social, and economic impacts of various energy policies, and how they influence energy sustainability.