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Frequency-Constrained Resilient Scheduling of Microgrid: A Distributionally Robust Approach

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arxiv 2106.15801 v1 pith:TLXR7KER submitted 2021-06-30 eess.SY cs.SY

Frequency-Constrained Resilient Scheduling of Microgrid: A Distributionally Robust Approach

classification eess.SY cs.SY
keywords frequencymicrogridmodelpowerschedulingassociatedconstraintsdistributionally
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In order to prevent the potential frequency instability due to the high Power Electronics (PE) penetration under an unintentional islanding event, this paper presents a novel microgrid scheduling model which explicitly models the system frequency dynamics as well as the long/short term uncertainty associated with renewable energy resources and load. Synthetic Inertia (SI) control is applied to regulating the active power output of the Inverter-Based Generators (IBGs) to support the post-islanding frequency evaluation. The uncertainty associated with the noncritical load shedding is explicitly modeled based on the distributionally robust formulation to ensure resilient operation during islanding events. The resulted frequency constraints are derived analytically and reformulated into Second-Order Cone (SOC) form, which are further incorporated into the microgrid scheduling model, enabling optimal SI provision of Renewable Energy Sources (RESs) from the micorgrid perspective. With the SOC relaxation of the AC power flow constraints, the overall problem is constructed as a mixed-integer SOC Programming (MISOCP). The effectiveness of the proposed model is demonstrated based on modified IEEE 14-bus system.

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