2014
DOI: 10.1109/tpel.2014.2301833
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Line Loss Minimization in Isolated Substations and Multiple Loop Distribution Systems Using the UPFC

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Cited by 49 publications
(29 citation statements)
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“…The objectives are to simultaneously achieve LM, VM, increase DG penetration (DG%), and associated benefits in LDN planning, respectively. Figure 1a illustrates a simple electrical equivalent loop model for the VSI evaluation of LDN [36] and is similar to one line diagrams based on three distribution lines as considered in [4,5]. The type I loop, being simple and feasible, is considered for a study where two radial feeders form a closed loop and is fed by the same power transformer [5,36].…”
Section: Voltage Assesment Methods For Loop Distribution Networkmentioning
confidence: 99%
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“…The objectives are to simultaneously achieve LM, VM, increase DG penetration (DG%), and associated benefits in LDN planning, respectively. Figure 1a illustrates a simple electrical equivalent loop model for the VSI evaluation of LDN [36] and is similar to one line diagrams based on three distribution lines as considered in [4,5]. The type I loop, being simple and feasible, is considered for a study where two radial feeders form a closed loop and is fed by the same power transformer [5,36].…”
Section: Voltage Assesment Methods For Loop Distribution Networkmentioning
confidence: 99%
“…When the configuration of test DN has changed to loop, the current of the light loaded feeder increases as TL current (ITL) and heavy loaded feeder has reduced by same amount of ITL [4]. The impedance of each line has represented with Zj = Rj + jXj (where j = 1, 2, 3), where the line resistance is shown with Rj and line reactance with Xj; respectively.…”
Section: Loss Minimization Case Without Distributed Generation Units mentioning
confidence: 99%
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