Source-Load Coordinated Optimization Framework for Distributed Energy Systems Using Quasi-Potential Game Method

Wang, Guofeng; Jiang, Bei; Liu, Yuchen; Wang, Licheng; Zhang, Youbing; Yan, Jun; Wang, Kai

doi:10.23919/pcmp.2024.000161

articleProtection and Control of Modern Power SystemsSep 1, 2025Closed access

Source-Load Coordinated Optimization Framework for Distributed Energy Systems Using Quasi-Potential Game Method

GWGuofeng Wang BJBei Jiang YLYuchen Liu LWLicheng Wang YZYoubing Zhang

Zhejiang University of Technology · Concordia University · +1 more institution

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Abstract

Addressing carbon reduction in the energy sector is crucial in the global fight against climate change. In response to this, a source-load coordinated optimization framework is proposed for distributed energy systems (DES). The high carbon-emitting power plants in the source side are transformed into carbon capture power plants to capture CO2 generated during power generation, thereby improving the power efficiency and decreasing the carbon emissions of the DES. On the load side, the low carbon demand response (LCDR) method is introduced to replace the traditional price-driven demand response. Governed by dynamic carbon emission factors, LCDR aims to facilitate a low carbon shift in end users' energy…

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Topics & keywords

Topics

Keywords

Stackelberg competition
Renewable energy
Scalability
Scheduling (production processes)
Demand response
Power (physics)
Work (physics)
Energy consumption

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