Location identification of high impedance faults using synchronized harmonic phasors

机译：利用同步谐波相量识别高阻抗故障

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This paper proposes a novel method to identify the location of a high-impedance fault (HIF) in a power distribution system. The developed method uses synchronized harmonic phasors with focus on the third harmonic component. Such harmonic synchrophasors could be provided in practice, e.g., by distribution level phasor measurement units, a.k.a, μPMUs. In this regard, the location of the fault can be estimated based on the impedance that is calculated from the third harmonic voltage and current synchrophasors produced by the fault and captured by the μPMUs. In this method, both resistance and inductance are estimated, to allow fault location identification even in a network with multiple type conductors. Note that, the fault does not need to be fully observable. As few as two μPMUs would be sufficient to estimate the HIF location at least to certain accuracy. The effectiveness of the proposed method is demonstrated through simulating the IEEE 33 bus test system in PSCAD.

机译：本文提出了一种新的方法来识别配电系统中的高阻抗故障（HIF）的位置。所开发的方法使用同步谐波相量，重点放在三次谐波分量上。这样的谐波同步相量可以在实践中例如通过分配水平相量测量单元（也称为μPMU）来提供。就这一点而言，可以基于由故障产生并由μPMU捕获的三次谐波电压和电流同步相量计算出的阻抗来估计故障的位置。通过这种方法，可以同时估算电阻和电感，从而即使在具有多种类型导体的网络中也可以进行故障位置识别。请注意，该故障不需要完全可观察到。至少两个μPMU足以估计HIF位置，至少达到一定的精度。通过仿真PSCAD中的IEEE 33总线测试系统，证明了该方法的有效性。

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《IEEE Power and Energy Society Innovative Smart Grid Technologies Conference》|2017年|1-5|共5页
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Mohammad Farajollahi; Alireza Shahsavari; Hamed Mohsenian-Rad;
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Harmonic analysis; Phasor measurement units; Power system harmonics; Impedance; Fault currents; Current measurement; Voltage measurement;

机译：谐波分析相量测量单位电力系统谐波阻抗故障电流电流测量电压测量;

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2. A Real-Time Synchronized Harmonic Phasor Measurements-Based Fault Location Method for Transmission Lines [J] . Balimidi Mallikarjuna, Gopakumar Pathirikkat, Diptendu Sinha Roy, Journal of control, automation and electrical systems . 2019,第6期

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3. The Effect of the Harmonics, the Fault Location and the Fault Resistance on the Performance of the Impedance-Type Distance Relay | Science Publications [J] . A. S. Khraiwish, M. Al-Busoul, M. Alshamasin, American journal of applied sciences . 2009,第4期

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4. Location identification of high impedance faults using synchronized harmonic phasors [C] . Mohammad Farajollahi, Alireza Shahsavari, Hamed Mohsenian-Rad IEEE Power Energy Society Innovative Smart Grid Technologies Conference . 2017

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7. The Effect of the Harmonics, the Fault Location and the Fault Resistance on the Performance of the Impedance-Type Distance Relay [O] . A. S. Khraiwish, M. Alshamasin, R. Kassasbeh, 2009

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Location identification of high impedance faults using synchronized harmonic phasors

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