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Abstract
Abstract With the rapid development of Chinese society, there is an increasing demand for electricity from users, which brings great challenges to the security of the power grid. As a new technical means, a virtual power [1] plant is an inevitable choice for the future development of power systems to participate in power grid regulation. The aggregation of virtual power plants participated by distributed energy sources is the key technology for virtual power plants to mobilize distributed energy sources to participate in power grid regulation. Based on this background, this paper proposes a model of dynamic aggregation of distributed energy in virtual power plants based on evolutionary game theory [2] to realize dynamic aggregation of virtual power plants. Finally, the effectiveness of the proposed model is demonstrated by a numerical example.
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