2024
DOI: 10.24084/repqj13.365
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Assessment of Voltage Dips based on Field Measurements in MV Networks

Abstract: Voltage dip is considered as the PQ problem related to the highest financial losses for the customers. It occurs unpredictably mainly due to short-circuit faults in the networks. Network operators and customers want to know more about the occurrence and the potential impact of voltage dips. PQ monitoring is an essential tool for the assessment of voltage dips and it can ultimately contribute to the regulation of voltage dip events. In this paper, firstly the methods of voltage monitoring and voltage dips chara… Show more

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Cited by 5 publications
(4 citation statements)
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“…As recommended by the IEC 61000‐4‐30, RMS voltage characteristics as a function of time of the voltage events are obtained using the half‐cycle sliding window method. Regarding the data used, phase‐to‐ground voltages are monitored in the MV networks while the end‐users are essentially influenced by voltage dips associated to the phase‐to‐phase voltages . The characteristics of phase‐to‐phase voltages as a function of time are obtained for each event from the waveforms of phase‐to‐ground voltages.…”
Section: Important Aspects For Building Voltage Dip Regulationmentioning
confidence: 99%
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“…As recommended by the IEC 61000‐4‐30, RMS voltage characteristics as a function of time of the voltage events are obtained using the half‐cycle sliding window method. Regarding the data used, phase‐to‐ground voltages are monitored in the MV networks while the end‐users are essentially influenced by voltage dips associated to the phase‐to‐phase voltages . The characteristics of phase‐to‐phase voltages as a function of time are obtained for each event from the waveforms of phase‐to‐ground voltages.…”
Section: Important Aspects For Building Voltage Dip Regulationmentioning
confidence: 99%
“…Regarding the data used, phase-to-ground voltages are monitored in the MV networks while the end-users are essentially influenced by voltage dips associated to the phase-to-phase voltages. 31,33 The characteristics of phase-to-phase voltages as a function of time are obtained for each event from the waveforms of phase-to-ground voltages. In this way, the effect of propagation on the number and severity of voltage dips at the customer terminals will be taken into account.…”
Section: Assessing and Presenting Voltage Dipsmentioning
confidence: 99%
“…The characteristics of voltages, mainly with unbalanced dips, are often different at different voltage levels [13]. Phase-phase dips in MVnetwork propagate through Dyn transformers as phase-dips in the LV-networks, and end-users are essentially affected by phase-phase dips in the MV-networks [13,14].…”
Section: Propagation Of Voltage Dipsmentioning
confidence: 99%
“…From the dataset of voltage events monitored at the point of common coupling (PCC) of a MV-network for four years, the dips that can be seen at the customer terminals are obtained [31]. Corresponding to the voltage dips sensitivity density table (given in Table 3), Table 4 shows the average density of three types of voltage dips having different magnitude and duration.…”
Section: Voltage Dip Profile and Economic Impactmentioning
confidence: 99%