Abstract
Increasing distributed energy resources in the active distribution system requires greater flexibility of active management and better utilization of existing network assets. An optimal active management model is proposed in this paper for the flexible operation of the active distribution system from the view of maximum economic benefits of the local power company. This active management scheme is presented with the multi-period optimal power flow framework, which includes both generation curtailment and intelligent control of the aggregated PEVs. The behavior data of the PEVs are generated by Monte-Carlo simulations based on the probability functions. A generic active distribution network is used to verify the feasibility and effectiveness of the proposed model and strategies. Results show that high operational flexibility of an active distribution system can be achieved by employing intelligent strategies-based active management.
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