Driven by both the energy revolution and the digital revolution, many emerging energy technologies in sustainable energy systems are accelerating their iteration with an unprecedented speed, becoming the core driving force of the global energy transition to green and low-carbon energy. A lot of countries around the world have listed the digital and intelligent technology of energy systems as a key task, which proposed to focus on the integrated development of next-generation information technology. Those promote the digital and intelligent upgrading of the energy industry, carry out pilot demonstrations of the integration of various energy plant stations and regional smart energy systems, and lead the transformation and upgrading of the energy industry. New business models, such as the energy internet, smart energy, and comprehensive energy services continue to emerge. Comprehensive intelligent energy is a strategic choice to achieve the goal of net zero carbon emission, which is an important basis for the construction of a new power system.
Advanced energy system specifically refers to the integrated system of energy production, supply, and marketing formed through the organic coordination and optimization of energy production, transmission, and distribution (energy network), conversion, storage, consumption, and other links in the process of planning, construction, and operation. The research topic aims to collect the original work of intelligent energy management, optimization, advanced control, and protection strategies applied to integrate renewable energy and traditional energy. The target audience includes academic researchers and industry professionals. This project aims to provide a platform for promoting current research and to promote the sharing of prospects in related energy fields. Review articles commenting on the current state of energy development are also welcome.
In this Research Topic, the Editors invite scientists, investigators, and scholars to contribute creative and innovative original research and review articles that focus on, but are not limited to, the following themes:
• advanced protection coordination strategies and protection testing for sustainable energy system
• architecture and design of energy internet for modeling, simulation, and analysis
• cyber-physical system security in the energy system
• renewable energy generation combined with the large-scale energy storage
• flexible resources control for virtual power plant
• electrical vehicles and intelligent transportation
• energy management systems for energy internet
• energy market and trading for energy system
• cost-effectiveness analysis for energy system engineering
• low-grade waste heat recovery technologies
• hydrogen utilization from renewables, such as solar PV and wind power
• decentralized heating, cooling, and power supply with fuel cells
• optimized control research by artificial intelligence
Driven by both the energy revolution and the digital revolution, many emerging energy technologies in sustainable energy systems are accelerating their iteration with an unprecedented speed, becoming the core driving force of the global energy transition to green and low-carbon energy. A lot of countries around the world have listed the digital and intelligent technology of energy systems as a key task, which proposed to focus on the integrated development of next-generation information technology. Those promote the digital and intelligent upgrading of the energy industry, carry out pilot demonstrations of the integration of various energy plant stations and regional smart energy systems, and lead the transformation and upgrading of the energy industry. New business models, such as the energy internet, smart energy, and comprehensive energy services continue to emerge. Comprehensive intelligent energy is a strategic choice to achieve the goal of net zero carbon emission, which is an important basis for the construction of a new power system.
Advanced energy system specifically refers to the integrated system of energy production, supply, and marketing formed through the organic coordination and optimization of energy production, transmission, and distribution (energy network), conversion, storage, consumption, and other links in the process of planning, construction, and operation. The research topic aims to collect the original work of intelligent energy management, optimization, advanced control, and protection strategies applied to integrate renewable energy and traditional energy. The target audience includes academic researchers and industry professionals. This project aims to provide a platform for promoting current research and to promote the sharing of prospects in related energy fields. Review articles commenting on the current state of energy development are also welcome.
In this Research Topic, the Editors invite scientists, investigators, and scholars to contribute creative and innovative original research and review articles that focus on, but are not limited to, the following themes:
• advanced protection coordination strategies and protection testing for sustainable energy system
• architecture and design of energy internet for modeling, simulation, and analysis
• cyber-physical system security in the energy system
• renewable energy generation combined with the large-scale energy storage
• flexible resources control for virtual power plant
• electrical vehicles and intelligent transportation
• energy management systems for energy internet
• energy market and trading for energy system
• cost-effectiveness analysis for energy system engineering
• low-grade waste heat recovery technologies
• hydrogen utilization from renewables, such as solar PV and wind power
• decentralized heating, cooling, and power supply with fuel cells
• optimized control research by artificial intelligence