Abstract
Effective resilience improvement strategies enable the power grid to cope with disruptive extreme events. Most power grid outages are caused by disruptions in distribution grids. Motivated by the urgent need for power system resilience research, this paper proposes a priority-weighted optimal load restoration technique to enhance the resilience of distribution grids against extreme events. The proposed technique is based on smart distribution technology and framed as sequential multi-step decision process (MDP) and mixed integer linear program (MILP). It is formulated as optimal control problem with a model predictive control (MPC) approach. We applied the devised MILP-MPC-based load restoration technique to a simplified single-bus version of the IEEE 13-bus distribution system with integrated distributed energy resources (DERs) such as wind turbine, photovoltaic array, microturbine, and energy storage device. The technique executes a reducing and rolling horizon optimization in each control step in real-time using the forecasted information of the renewables, the fuel status of the microturbine and the state of charge of the energy storage device. We consider an extreme event which triggered outage of the upstream utility grid and caused islanded operation of the distribution grid. We demonstrated the effectiveness of the proposed MPC approach in restoring the distribution grid loads based on their priority during the main grid outage-caused islanded operation.
Original language | American English |
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Number of pages | 9 |
State | Published - 2021 |
Event | 52nd North American Power Symposium - Duration: 11 Apr 2021 → 14 Apr 2021 |
Conference
Conference | 52nd North American Power Symposium |
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Period | 11/04/21 → 14/04/21 |
Bibliographical note
See NREL/CP-2C00-80934 for paper as published in proceedingsNREL Publication Number
- NREL/CP-2C00-77124
Keywords
- DER
- distribution grid
- extreme event
- load restoration
- model predictive control
- resilience