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Identification of Ground–fault Current in Various Transformer Connection and Generator Grounding using Symmetrical Components Method

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Published under licence by IOP Publishing Ltd
, , Citation A.R. Sultan et al 2019 IOP Conf. Ser.: Mater. Sci. Eng. 619 012032 DOI 10.1088/1757-899X/619/1/012032

1757-899X/619/1/012032

Abstract

Single line to ground-fault (SLG) fault is the record frequent fault probable to occur in an electric power system. The effect of ground-fault is determined by using grounding method and transformer connections. In this study, the simulation showed the performance of a simple power system within the SLG fault in the system at various transformer connection and generator grounding method. New approach the application of ground fault current calculation using symmetrical components method on unit generator transformers. A symmetrical components method applied with simulation was conducted in Matlab software. The results were then analyzed, presenting a comparison with the fault impact at various transformer connection and generator grounding method. The models of transformer connection for each side (primary and secondary) used were wye (Y), wye-grounded (Yn) and delta (Δ). It was clearly shown that the ground-fault currents at the generator bus had significantly an effect on the type of the transformer connections used during the ground-fault at the secondary side of the transformer.

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