With the rapid development of power systems with Integrated Energy as the main body, clean, large-scale, and comprehensive energy has become the construction task of the New Energy Power System. The power side process of energy generation is based on digitization, automation, information technology and standardization, and combines with some novel technologies such as big data, cloud computing, Internet of Things to form an integrated mode with operation control and management.
In integrated energy systems, there are man servere uncertainties, and time-varying complexities in system operation, which require higher reliability and flexibility of the system operation. The scale of the system also requires a networked collaborative operation. Challenges for security and stability need to be assessed. In order to meet the requirements of the complex and changeable operation scenarios of the integrated energy grid, more rational stability analysis ideas, control technologies, and intelligent management and control strategies are urgently needed for the operation of the integrated energy system.
The objective of this research topic is to encourage the dissemination of new concepts, ideas, and novel methods of analyzing the security and stability of integrated energy systems. It aims to disseminate fundamental research, innovation and exchange of information in these relevant areas. Applications papers are also highly welcomed. Topics of interest include, but are not limited to:
1. Stability and control of integrated energy systems
2. Application of AI technologies to energy system security and stability
3. Nonlinear dynamics of integrated energy systems
4. Stability analysis and evaluation technology of new energy power system
5. Control of nonlinear dynamics of power system
6. Stability and control of high proportion renewable energy access system
7. Data-driven power system stability analysis
8. Distributed state estimation and convergence analysis
9. Stability analysis of Distributed Energy System
10. Stability Region based on nonlinear modelling
With the rapid development of power systems with Integrated Energy as the main body, clean, large-scale, and comprehensive energy has become the construction task of the New Energy Power System. The power side process of energy generation is based on digitization, automation, information technology and standardization, and combines with some novel technologies such as big data, cloud computing, Internet of Things to form an integrated mode with operation control and management.
In integrated energy systems, there are man servere uncertainties, and time-varying complexities in system operation, which require higher reliability and flexibility of the system operation. The scale of the system also requires a networked collaborative operation. Challenges for security and stability need to be assessed. In order to meet the requirements of the complex and changeable operation scenarios of the integrated energy grid, more rational stability analysis ideas, control technologies, and intelligent management and control strategies are urgently needed for the operation of the integrated energy system.
The objective of this research topic is to encourage the dissemination of new concepts, ideas, and novel methods of analyzing the security and stability of integrated energy systems. It aims to disseminate fundamental research, innovation and exchange of information in these relevant areas. Applications papers are also highly welcomed. Topics of interest include, but are not limited to:
1. Stability and control of integrated energy systems
2. Application of AI technologies to energy system security and stability
3. Nonlinear dynamics of integrated energy systems
4. Stability analysis and evaluation technology of new energy power system
5. Control of nonlinear dynamics of power system
6. Stability and control of high proportion renewable energy access system
7. Data-driven power system stability analysis
8. Distributed state estimation and convergence analysis
9. Stability analysis of Distributed Energy System
10. Stability Region based on nonlinear modelling