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Multi-timescale Active Distribution Network Scheduling Considering Demand Response and User Comprehensive Satisfaction

Hongzhang Sheng, Chengfu Wang, Bowen Li, Jun Liang, Ming Yang, Yunhui Dong

2021IEEE Transactions on Industry Applications89 citationsDOI

Abstract

A large number of distributed energy resources (DERs) integrate into the distribution network, which changes the power flow, increases the power fluctuations, and complicates the scheduling of the distribution network. To cope with that, a multitimescale scheduling method, which considers the demand response as well as user satisfaction, is proposed in this paper. First, in the day-ahead stage, both the generation-side and demand-side are combined to minimize the operating costs and reduce the impact of DERs. Second, in the real-time stage, the model predictive control method is introduced, smoothing the power fluctuations and maximizing the consumed renewable energy. Finally, the user comprehensive satisfaction is considered, ensuring the users’ benefit and improving the flexibility of users to participate in scheduling while shifting electricity demands. By optimizing the generation-side and demand-side on both day-ahead and real-time timescales, the proposed method can improve the operation status for the distribution network effectively while ensuring the interests of users. Simulation on an improved IEEE-33 bus distribution system verifies the effectiveness of the proposed method.

Topics & Concepts

Demand responseScheduling (production processes)Computer scienceDistributed generationSmoothingRenewable energyDemand sideDistributed computingElectricityReliability engineeringSimulationMathematical optimizationEngineeringEnvironmental economicsElectrical engineeringMathematicsComputer visionEconomicsOptimal Power Flow DistributionSmart Grid Energy ManagementMicrogrid Control and Optimization
Multi-timescale Active Distribution Network Scheduling Considering Demand Response and User Comprehensive Satisfaction | Litcius