Abstract
With the rapid development of distribution networks, two-terminal overhead lines have been used on a large scale for higher power supply reliability, thus the fault location has attracted much attention. Accurate fault location is helpful to shorten the outage time and improve the economy of operation greatly. However, since insufficient standardization of equipment selection and poor management, line parameters are usually inaccurate or even unknown, mature fault location methods based on impedance can’t be applied anymore. Also, the asymmetry caused by non-transposition in distribution networks affects the accuracy of fault location. This paper proposes a fault location method for two-terminal untransposed overhead lines without requiring line parameters. Firstly, this paper considers parameter asymmetry, and the mutual impedances between the three phases are set as different values. Secondly, the location equations rely on three-phase networks, then the self-impedance and mutual impedances are regarded as unknowns and solved directly. Finally, this method takes the average value of fundamental frequency components from different data windows, which reduces error and improves accuracy. The simulation results show that the fault location method has high accuracy, and can effectively overcome the influence of unknown line parameters and non-transposition.
Highlights
With the rapid growth of electric power systems, the scale of distribution networks is becoming increasingly larger
The existing fault location methods for two-terminal overhead lines can be divided into three categories: traveling wave method, active fault location method and impedance method
To solve the problems above, this paper proposes a fault location method for untransposed overhead lines based on μMPMU
Summary
With the rapid growth of electric power systems, the scale of distribution networks is becoming increasingly larger. References [7,8] study the harm caused by untransposed lines in distribution networks and the solutions for asymmetry These two methods need high investment, and the actual effect is greatly affected by the operation mode, which has certain limitations. The emerging μMPMU (micro-multifunctional phasor measurement unit) provides a new technical method for locating the fault accurately without line parameters It utilizes the precise timing of GPS to realize synchronous sampling of all points in the network and sends the measurement data with time tags through high-speed communication networks. To solve the problems above, this paper proposes a fault location method for untransposed overhead lines based on μMPMU This method has the following advantages: (1) The line impedance parameters are not needed in fault location.
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