Journal
IEEE TRANSACTIONS ON POWER DELIVERY
Volume 37, Issue 3, Pages 2421-2424Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TPWRD.2022.3147694
Keywords
Circuit faults; Power systems; Impedance; Mathematical models; Phasor measurement units; Integrated circuit modeling; Computational complexity; Bus impedance matrix; nodal injections; superimposed circuit; wide area backup protection (WABP)
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This letter proposes a technique to reduce the computational complexity of wide-area backup protection (WABP) methods using sparse PMU measurements. The technique allows the system of equations for each candidate line to be obtained directly from the bus impedance matrix of the pre-fault power system, eliminating the need for multiple distinct bus impedance matrices. The proposed technique's applicability and effectiveness are verified through extensive simulations on the IEEE 39-bus test system.
Wide-area backup protection (WABP) refers to the identification of the faulted line amongst candidate lines by using sparse PMU measurements. This letter proposes a technique for reducing the computational complexity of WABP methods that employ the superimposed-circuit concept. A proposition is presented and proved to justify that the system of equations pertaining to every candidate line can be directly obtained from the bus impedance matrix of the pre-fault power system. This is in contrast with existing WABP methods requiring the establishment of as many distinct bus impedance matrices as the number of candidate lines in the power system. The applicability and effectiveness of the proposed technique are verified by conducting more than 20,000 simulations on the IEEE 39-bus test system.
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