2014 IEEE PES T&D Conference and Exposition 2014
DOI: 10.1109/tdc.2014.6863319
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A framework for intelligent feeder overloading

Abstract: Component ampacity in conventional feeder design and engineering is based on worst-case scenarios that, by virtue of necessity, disregards the inherent thermal inertia and realtime or anticipated ambient temperatures. From operations point of view, reliance on these static figures leads to underutilization and limited options to re-route power flow during normal and emergency conditions. The framework proposed in this article formalizes the engineering practice of overloading that helps optimize feeder utiliza… Show more

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Cited by 2 publications
(1 citation statement)
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“…The study of intelligent overloading of distribution network by dynamic current rating, making use of thermal inertia of different system components is presented in [3], [4]. In [5], this concept is used to under design the chosen converter for PV applications, making use of the intermittent nature of PV energy generation.…”
Section: A Dynamic Current Ratingmentioning
confidence: 99%
“…The study of intelligent overloading of distribution network by dynamic current rating, making use of thermal inertia of different system components is presented in [3], [4]. In [5], this concept is used to under design the chosen converter for PV applications, making use of the intermittent nature of PV energy generation.…”
Section: A Dynamic Current Ratingmentioning
confidence: 99%