Abstract

The transition from a vertically integrated to a horizontally integrated structure in the electricity system results in an increase in uncertainty at various levels. The new power system topology mandates the inclusion of uncertain behavior in the standard power flow studies, which were previously not necessary. Three-phase load flow has been extensively used for power system analysis in balanced and unbalanced cases. In this paper, an efficient Latin Hypercube Monte-Carlo simulation (LHMCS) approach for a three-phase transmission system load flow has been developed, which can be used for uncertainty quantification and determining the probability distribution of various parameters. The proposed method has been tested using the IEEE-118 bus test system for different cases.

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