| Autor: |
Yablokov, A. A., Ivanov, I. E., Panashchatenko, A. V., Tychkin, A. R., Kulikov, F. A., Murzin, A. Yu., Lachugin, V. F. |
| Zdroj: |
Power Technology & Engineering; Sep2022, Vol. 56 Issue 3, p427-437, 11p |
| Abstrakt: |
The focus of this paper is on the impedance-based fault location in a transmission line via synchronized phasor measurements. Physical and mathematical modeling involving real-time digital simulations is used to show that fault location based on synchronized phasor measurements is promising for extra-high voltage overhead transmission lines. Avariety of single-end and double-end fault location methods are put together to show that the fault location accuracy can be well within 1 – 2% for both P and M class filters defined in the IEEE C37.118 standard. The methods are analyzed for a validated 750 kV line model generated using ATPDraw software and an electric grid model with 500, 330, and 220 kV overhead lines sharing the same right-of-way. Unlike many other publications, no Fourier-simulated phasors under transients are used here. Instead, we resort to physical modeling involving hardware equipped with synchrophasor functionality. An experimental setup is described, and future research areas are highlighted. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
| Externí odkaz: |
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