Title :
Marine Power Distribution System Fault Location Using a Portable Injection Unit
Author :
Ke Jia ; Tianshu Bi ; Bohan Liu ; Christopher, Edward ; Thomas, David W. P. ; Sumner, Mark
Author_Institution :
Electr. & Electron. Eng. Dept., North China Electr. Power Univ., Beijing, China
Abstract :
A portable injection unit for active impedance estimation (AIE) is built and tested in a dc zonal marine power distribution system to provide useful information for system protection and restoration. The portable unit generates current “spikes” and injects them into the system once short-circuit faults are detected (by measuring the system voltage drop). The faulted system impedance can be estimated by AIE and comparing the estimated impedance with the precalibrated value, the fault location can be determined. The proposed method does not rely on system fault transient information or communication from the remote-end measurement and offers fast and accurate fault location in dc marine distribution systems. The proposed method has been tested and validated on a 750-V, 2-MW twin bus dc commercial test facility with the system de-energized and energized.
Keywords :
fault location; marine power systems; power distribution faults; power distribution protection; short-circuit currents; active impedance estimation; dc marine distribution systems; dc zonal marine power distribution system; faulted system impedance; marine power distribution system fault location; portable injection unit; power 2 MW; remote-end measurement; short-circuit faults; system fault transient information; system protection; system restoration; twin bus dc commercial test facility; voltage 750 V; Circuit faults; Continuous wavelet transforms; Current measurement; Fault location; Frequency-domain analysis; Impedance; Voltage measurement; Active impedance estimation; fault location; injections; marine distribution system;
Journal_Title :
Power Delivery, IEEE Transactions on
DOI :
10.1109/TPWRD.2014.2364259
