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Iteckne
Print version ISSN 1692-1798
Abstract
TIRIRA-CHULDE, Rubén Darío and BARRERA-SINGANA, Carlos Andrés. Long-Term Voltage Stability Using Load Models In Electric Power Systems. Iteckne [online]. 2022, vol.19, n.1, pp.15-25. Epub Sep 08, 2022. ISSN 1692-1798. https://doi.org/10.15332/iteckne.v19i1.2545.
Voltage stability is a fundamental issue in the study and analysis of all power systems, which is why in this paper this problem is addressed using to Continuation Power Flows method (CPF, for its acronym in English), which through the reformulation of specified powers we proceed to include equations that represent the different load models. This is to make a comparison of the collapse points obtained with and without load models, in this way to be able to analyze the differences that occur between the two results. The tests of the study are carried out using a code made in Matlab, which uses the data of the IEEE 9-bar system. This code allows obtaining the PV curve of the bar to be analyzed, resulting in the collapse point obtained without including a load model and the collapse point with a load model. Based on this, a comparison is made between a voltage stability analysis using the conventional CPF method and another that includes load models. The results found to allow us to establish that the effect of the load models on the voltage stability is less as the system enters situations of instability.
Keywords : voltage stability; load models; PV curve; continuation power flow.