College of Mechanical and Electrical Engineering, Beijing University of Chemical Technology
Planning and operation of integrated energy systems with uncertainties
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Submission deadline: 2024-08-31
Special Issue Editors
School of Electric Power Engineering, South China University of Technology, Guangzhou, 510641, China
Interests: Integrated energy systems; Distributed energy storage applications; Optimization and decision-making support systems
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School of Artificial Intelligence and Automation, Huazhong University of Science and Technology, Wuhan, 43004, China
Interests: Smart grid; Artificial intelligence and automation; Renewable energy
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Special Issue Information
Dear Colleagues,
This Special Issue is concerned with the research on the key fundamental issues of integrated energy systems (IESs) planning and operation under uncertainties, which consist of four parts: (1) Modeling of IESs, in inclusion of modeling the dynamic behaviors of various energy devices as well as their connections to form an IES model; (2) development of high-dimensional multi-objective stochastic optimization algorithms; (3) development of decision-making support for determination of the final optimal solution for the planning and operation of IESs under uncertainties, selected from the Pareto sets of the multi-objective optimization computation, and (4) mechanism design for distributed IES to participate in the electricity market under various interest entities.
The referred methods could be applied to plan a power network based IESs and investigate the economy and reliability of IESs under uncertainties, which could be achieved using distributed CHP and CCHP, heat storages, cool storages and hydrogen storages, and investigate the smooth peaks and valleys of power generation and loads, respectively. This Special Issue aims to publish high-quality, original research papers in the overlapping fields of:
· Modeling for integrated energy systems;
· Energy storage technologies;
· Uncertainties management;
· Multi-objective optimization;
· Decision-making support;
· Net zero-carbon emission of IES;
· Economy and reliability evaluation;
· Mechanism Design for IES.
Assoc. Prof. Jiehui Zheng
Guest Editor
Keywords
Integrated energy systems; Planning and operation; Modeling, optimization and decision-making; Energy storage; Mechanism Design for IES; Net zero-carbon emission
