首页|Coordinated Restoration of Integrated Gas-Electricity Distribution System With Dynamic Islanding: A Multi-Stage Stochastic Model With Nonanticipativity
Coordinated Restoration of Integrated Gas-Electricity Distribution System With Dynamic Islanding: A Multi-Stage Stochastic Model With Nonanticipativity
扫码查看
点击上方二维码区域,可以放大扫码查看
原文链接
NETL
NSTL
IEEE
With the sharp growth of extreme events and the tight connection between the natural gas and electricity systems, it is imperative to co-optimize the two energy systems after natural disasters. This paper proposes a multi-stage stochastic restoration model of the integrated gas-electricity distribution system (IGEDS) considering the nonanticipativity requirements of uncertain extreme events. The proposed model minimizes the total operational cost during the restoration process while considering repair crew scheduling, reconfiguration of the power distribution system, primary frequency response (PFR) of distributed generators (DGs), and gas and electricity demand response (DR). In addition, dynamic islanding via topology adjustment is proposed in this paper, which could effectively utilize the PFR reserve of DGs to supply critical loads while guaranteeing frequency stability. Moreover, uncertainties of fault branches in different stages and energy generation/consumption are taken into account to ensure nonanticipativity and all scenario feasibility. To solve the proposed model, a customized progressive hedging (PH) algorithm with improved iteration criteria is presented. Numerical results show that the proposed model could effectively improve the restoration process against extreme events.
UncertaintyHeuristic algorithmsElectricityPower system dynamicsStochastic processesLoad sheddingMaintenance engineeringNumerical modelsTopologyLoad modeling
NETL
NSTL
IEEE
