Optimal configuration strategy of MESSs balancing multiple objectives in urban distribution networks

Abstract

Urban distribution networks (DNs) are facing challenges in keeping power service for lifeline loads under extreme events such as storms. However, the economy under normal operation of resilience-oriented measures need to be further considered in resilience enhancement strategies. Therefore, this paper proposes an equilibrium configuration method for mobile energy storage systems (MESSs) in order to improve both the resilience and economy of urban distribution networks against storms based on Nash bargaining. Considering the accurate failure rate model of urban DN components, an equilibrium configuration method for sizing MESSs is proposed, in which the Nash bargaining method is used to deal with the paradox between economy and resilience. Simulation tests further verify the superiority of the proposed equilibrium configuration strategy of MESSs considering multiple objectives in urban DNs.