Abstract
Under-frequency load shedding (UFLS) schemes are designed by specifying a given amount of load to shed at various frequency thresholds to prevent the collapse of the electrical power system in the event of a large generation-load imbalance. An UFLS step is constituted of a group of medium-voltage feeders that trip when a given frequency threshold is reached. This study focuses on the method to be used when allocating a given feeder to a given step. First, the authors introduce performance metrics to quantify the accuracy level with which the UFLS target is met. Second, they model: the allocation method currently used in France; a variant of that method; and a new method introduced in this study, based on an automated clustering technique. Third, based on real consumption patterns measured from a vast area in France, and using the introduced performance metrics, they compare the efficiency of the three described methods. This study is conducted for the current state of loading of the considered distribution network and for a hypothetical situation with an increased share of distribution-side photovoltaic generation. For the chosen performance metrics, they demonstrate that the first two methods provide similar results while the clustering-based method performs remarkably better.
Highlights
Large power imbalances may lead to the blackout of the electrical power system (EPS)
Each step is almost contained within the boundaries defined by the NC-ER
The steps obtained with the clustering method have the same probability density shape and the same standard deviation
Summary
Large power imbalances may lead to the blackout of the electrical power system (EPS) Those imbalances are directly reflected by the frequency of the power system, which decreases when consumption is higher than generation [1], and . In France, these relays are located at the head of medium-voltage (MV) feeders, inside primary substations, and they are set to trigger whenever a given frequency threshold is reached [2]. When this occurs, some parts of the distribution system are disconnected from the transmission system, reducing the total load, and containing the frequency decrease. This mechanism is called the under-frequency load shedding (UFLS) scheme
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