Abstract
The high penetration of distributed energy re sources (DER) in future Active Distribution Network (ADN) will bring great challenges to distribution network analysis. This paper presents a new methodology based on pseudo-sequential Monte Carlo (PSMC) simulation for the reliability assessment of distribution network with wind farms, photovoltaic generators and batteries. The proposed approach retains the computational efficiency of non-sequential Monte Carlo simulation and the ac curacy of sequential Monte Carlo simulation for it considers the chronological aspects of load, DER and batteries when evaluating failure sequences. Micro-grid operation, DER use strategy and optimal load shedding strategy are also considered in this method. Case study on the line 4 of IEEE RBTS-BUS6 is presented to prove the practicability of the method. The effects of DER integration on the distribution network reliability indices are also discussed.
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