应对高阶不确定性的输配电协同优化调度OA北大核心CSTPCD

In order to cope with the uncertainty of wind power generation and load side,to improve the power system's ability to consume renewable energy,and to realize the optimal scheduling between transmission and distribution networks,a transmission and distribution cooperative optimal scheduling model to cope with higher-order uncertainty was proposed in this paper.The model took into account wind power generation and load-side uncertainties and introduced an electrical-thermal integrated energy system based on transmission and distribution interconnections.The results showed that the model in this paper could improve the system grid-connected capability of wind power,enhance the system performance in adapting to electric load fluctuations,reduce the system's carbon emissions,and improve the system's economy.The results of this paper could provide a basis and support for power systems when developing transmission and distribution scheduling strategies to cope with higher-order uncertainties.