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Distributed grid edge control presents a promising approach for deriving significant value for utilities in the form of voltage support, loss reduction, peak demand reduction, energy savings and other interesting applications. In this paper, we present a distributed architecture realized using autonomous fast-acting hybrid power electronics devices managed by a software layer. Results obtained from...
A new approach to achieving volt-var control through the use of fast-acting distributed hybrid power electronics devices at the grid edge is proposed. It is shown that there is a missing layer of control at the grid edge which the conventional approaches do not address. Through field demonstration of 91, 10 kVAR devices on a 13 kV, 6 MW feeder, up to 5% CVR, 72% reduction in voltage volatility, 80%...
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