Enhancing Resilience and Efficiency in Power System: A Five‐Level Dynamic Planning Model

M Rezaei, M Tolou Askari… - Journal of Electrical …, 2024 - Wiley Online Library
Journal of Electrical and Computer Engineering, 2024Wiley Online Library
Researchers consider the planning of power systems to be of utmost importance, and due to
its significant budget, further studies on the resilience of energy systems are necessary.
Therefore, a five‐level dynamic model is developed to improve resilience to natural disaster
events. The initial level focuses on expansion planning and system uncertainties,
specifically examining the utilization of wind turbines in the proposed energy hub to
incorporate the thermal energy market together with demand response program. Its …
Researchers consider the planning of power systems to be of utmost importance, and due to its significant budget, further studies on the resilience of energy systems are necessary. Therefore, a five‐level dynamic model is developed to improve resilience to natural disaster events. The initial level focuses on expansion planning and system uncertainties, specifically examining the utilization of wind turbines in the proposed energy hub to incorporate the thermal energy market together with demand response program. Its purposes are to improve resilience, minimize input transmission costs, and minimize operating costs. The second level is related to the corrective actions that the system operator should take after the accident for network reconfiguration. The earthquake‐induced and attack events, considering unknown events, are modeled and assessed in the third level. Generation expansion planning is performed at the fourth level. As with the whole model, this level tries to improve resilience. The fifth level deals with transmission expansion planning to boost resilience, and the capability of transmission switching is regarded as a low‐cost correction factor. The first level optimizes energy hub according to the differential evolutionary algorithm, but the next four levels employ a robust symphony orchestra search algorithm. Finally, the dynamic planning model proposed here is employed on a Garvers 6‐bus system and then on a 400 kV 52‐bus Iranian power grid. According to the findings, the proposed planning model demonstrates a reduction in capital costs of transmission switches by up to 26%. Also, the expected profit of the generation units increases by as much as 3.75%. Accordingly, the results show that the model is both feasible and effective.
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