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Electrical Engineering

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27-03-2023 | Original Paper

Innovative method to identify the impedance parameters of a three-phase electric power medium-size transmission line

Author: Ahmed Abdolkhalig

Published in: Electrical Engineering | Issue 4/2023

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Abstract

This paper proposes a new method of dynamic estimation based on a linear quadratic estimation (LQE) to identify the parameters of impedance and admittance of a three-phase electric power medium-size transmission line using measurements provided by phasor units. First, a novel set of phasor equations for the steady-state operation of a medium-length transmission line are introduced. Then, the equations are transformed based on unscented transformation into a dynamic system model. The effectiveness of the new method is validated through the comparison of the results based on simulated data provided by two types of phasor unit models during step variation in line voltage and frequency. One model represents a typical phasor unit that adopts Fourier Transform-Based (FT-Based) algorithm, while the second one is adopting an unscented transform-based algorithm. Simulations have demonstrated the effectiveness of the proposed method for both models when step variation in line voltage and frequency occurs in the transmission line.

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DFT-based algorithm is the most widely used as an estimation technique of phasors.

Zhao J et al (2019) Power system dynamic state estimation: Motivations, definitions, methodologies, and future work. IEEE Trans Power Syst 34(4):3188–3198CrossRef

Karimi S et al (2018) Dynamic thermal rating of transmission lines: a review. Renew Sustain Energy Rev 91:600–612CrossRef

Beheshtaein S et al (2019) Review on microgrids protection. IET Gener Transm Distrib 13(6):743–759CrossRef

Zaborszky J, Rittenhouse JW (1954) Electric power transmission; the power system in the steady state. Ronald Press Co, New York

Dommel HW (1985) J.I.T.o.P.A. and systems, overhead line parameters from handbook formulas and computer programs. IEEE Trans Power Apparat Syst 1985(2): 366–372.

Hofmann L (2003) Series expansions for line series impedances considering different specific resistances, magnetic permeabilities, and dielectric permittivities of conductors, air, and ground. IEEE Trans Power Delivery 18(2):564–570.CrossRef

Kurokawa S et al (2005) A new procedure to derive transmission-line parameters: applications and restrictions. IEEE Trans Power Delivery 21(1):492–498MathSciNetCrossRef

Papadopoulos TA, Papagiannis GK, Labridis DPJEPSR (2010) A generalized model for the calculation of the impedances and admittances of overhead power lines above stratified earth. Electric Power Syst Res 80(9):1160–1170.

Asti G et al (2012) Identification of transmission line parameters from temporal measurements of currents and voltages in their terminals: Influence oh the length line. in: 2012 IEEE Power and Energy Society General Meeting. IEEE, New York.

10.

Monteiro JHA et al (2014) Simplified skin-effect formulation for power transmission lines. IET Sci Meas Technol 8(2):47–53CrossRef

11.

Gertrudes J, Tavares M, Portela C (2010) Influence of accurate soil representation for transmission-line parameters: analyses based on Carson's modified formulations. In: 2010 IEEE/PES Transmission and Distribution Conference and Exposition: Latin America (T&D-LA). IEEE, New York.

12.

D'Amore M, Sarto MS (1997) A new formulation of lossy ground return parameters for transient analysis of multiconductor dissipative lines. IEEE Trans Power Delivery 12(1):303–314.CrossRef

13.

Gashteroodkhani OA, Majidi M, Etezadi-Amoli M (2020) A fault data based method for zero-sequence impedance estimation of mutually coupled transmission lines. IEEE Trans Power Delivery 36(5):2768–2776.CrossRef

14.

Bendjabeur A et al (2020) Novel technique for transmission line parameters estimation using synchronised sampled data. IET Gener Transm Distrib 14(3):506–515CrossRef

15.

Mansani PK et al (2018) Estimation of transmission line sequence impedances using real PMU data. In: 2018 North American Power Symposium (NAPS). IEEE, New York.

16.

Milojević V et al (2018) Utilization of PMU measurements for three-phase line parameter estimation in power systems. IEEE Trans Instrum Meas 67(10):2453–2462CrossRef

17.

Goklani H, Gajjar G, Soman S (2019) Quantification of minimum unbalance required for accurate estimation of sequence parameters of transmission line using PMU data. In: 2019 IEEE Power & Energy Society General Meeting (PESGM). IEEE, New York.

18.

Wang C, Centeno VA, Jones KD, Yang D (2019) Transmission lines positive sequence parameters estimation and instrument transformers calibration based on PMU measurement error model. IEEE Access 7:145104–145117CrossRef

19.

Wehenkel A et al (2020) Parameter estimation of three-phase untransposed short transmission lines from synchrophasor measurements. Infoscience 69(9):6143–6154

20.

Muscas C et al (2021) Characterization of a PMU-based method for transmission line parameters estimation with systematic measurement error modeling. In: 2021 AEIT International Annual Conference (AEIT). IEEE, New York

21.

Phadke AG, Kasztenny BJItopd (2008) Synchronized phasor and frequency measurement under transient conditions. IEEE Trans Power Delivery 24(1):89–95.

22.

Perera N, Midence R, Jayasekara N (2019) Applicability of synchrophasor based frequency data for protection and control applications. In: 2019 72nd conference for Protective Relay Engineers (CPRE). IEEE, New York

23.

Mishra C, Centeno VA, Pal A (2015) Kalman-filter based recursive regression for three-phase line parameter estimation using synchrophasor measurements. In: 2015 IEEE Power & Energy Society General Meeting. IEEE, New York.

24.

Zhang Y, Liao Y (2020) Kalman filter approach for line parameter estimation for long transmission lines. In: 2020 IEEE Power and Energy Conference at Illinois (PECI). 2020. IEEE, New York.

25.

Pereira RFR, De Albuquerque FP, Liboni LHB, Costa ECM, de Oliveira MC (2022) Impedance parameters estimation of transmission lines by an extended Kalman Filter-based algorithm. IEEE Trans Instrum Measur 71:1–10CrossRef

26.

Stevenson WD (1955) Elements of power system analysis. McGraw-Hill, New York

27.

Julier SJ, Uhlmann JKJPotI (2004) Unscented filtering and nonlinear estimation. Proc IEEE 92(3):401–422.

28.

IEEE Standard for Synchrophasors for Power Systems, IEEE Standard C37.118.1–2011 (2011).

29.

IEEE Synchrophasor Measurement Test Suite Specification, IEEE Standard Association (2014).

30.

Group, U.I.U (2003) Implementation Guideline for Digital Interface to Instrument Transformers Using IEC 61850 9-2. IEC.

Title: Innovative method to identify the impedance parameters of a three-phase electric power medium-size transmission line
Author: Ahmed Abdolkhalig
Publication date: 27-03-2023
Publisher: Springer Berlin Heidelberg
Published in: Electrical Engineering / Issue 4/2023
Print ISSN: 0948-7921
Electronic ISSN: 1432-0487
DOI: https://doi.org/10.1007/s00202-023-01804-8

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