Accurate measurement of the transmission line parameters is essential for the stable operation of the power system. However, the existing methods are limited in their engineering applicability due to the assumption of...
详细信息
Accurate measurement of the transmission line parameters is essential for the stable operation of the power system. However, the existing methods are limited in their engineering applicability due to the assumption of parameter symmetry. The solution method for transmission line equations based on Laplace transform also leads to significant complexity in derivation and poor generalizability. To overcome these limitations, this study proposes a new method for measuring the zero-sequence distribution parameters of partialparalleldouble-circuit transmission lines based on a distributed parameter model. The method employs phase-mode transformation to represent the voltage and current at both ends of the lines through forward and backward voltage/current modes. Combined with the chain parameter matrix theory, expressions for the line impedance matrix and admittance matrix are derived without parameter simplifications. The proposed method achieves line parameter measurement under both power outage and live line conditions based on synchronous measurement. The measurement accuracy and robustness of the proposed method are validated through PSCAD/EMTDC simulations, and further demonstrated through successful field live line measurement tests on two 500 kV partialparalleldouble-circuit transmission lines. The measurement results indicate that the proposed method can measure the distribution parameters of the partial parallel double-circuit lines precisely. Furthermore, the proposed method is extended to a universal measurement method for the distribution parameters of n-circuit transmission lines and the phase parameters of asymmetric transmission lines.
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