Optimal Energy Sharing Strategy for Building Cluster
In order to realize effective interaction between virtual power plant and building cluster,the dynamic pricing model with virtual power plant operator as leader and building cluster as follower is proposed based on master-slave game theory.First,the operator,as the leader,formulates the energy consumption strategy of the building cluster guided by the dynamic price,and the lower layer optimizes its own energy consumption strategy according to the dynamic pricing issued by the leader.Then,the electric-carbon coupling energy sharing model considering time-sharing carbon metering is established on the building cluster side,and the energy complementarity of each building is improved through power sharing.Finally,the opportunity constraint method is used to analyze the uncertainty of wind and wind,and the impact of the uncertainty of demand response on the system operation is considered,so as to improve the ability of the system to deal with uncertain risks.Through simulation analysis,it is verified that the model can achieve the optimal benefit of virtual power plant and building cluster while reducing the carbon emission of the system.
building clustervirtual power plantmulti-uncertaintytime-sharing carbon meteringpower sharing
万方数据
维普
