Transient analysis on multiphase transmission line above lossy ground combining vector fitting technique in ATP tool

Colqui, Jaimis Sajid Leon, Justo De Araujo, Anderson Ricardo, Pascoalato, Taina Fernanda Garbelim, Kurokawa, Sergio and Filho, Jose Pissolato 2022. Transient analysis on multiphase transmission line above lossy ground combining vector fitting technique in ATP tool. IEEE Access 10 , pp. 86204-86214. 10.1109/ACCESS.2022.3198677

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Abstract

Several approaches to calculate the ground-return impedance and admittance matrices are proposed in the literature. Carson’s approach assumes a lossy ground modeled by frequency-independent conductivity where displacement currents and non-perfectly conducting ground effects are neglected. However, Nakagawa’s approach considers both characteristics and also the frequency-dependent (FD) soil electrical parameters that can be incorporated into his formulations. This paper investigates the influence of Nakagawa’s approach and Carson’s approach on the transient responses using the ATP tool. First, the performances of the Bode’s method and Vector Fitting (VF) technique for approximating the characteristic impedance Zc ( s ) and propagation H ( s ) are also investigated for the JMarti’s line model. Then, lightning-induced voltages (LIVs) developed for a lightning striking at the shield wire of an overhead transmission line (OHTL) on a high-resistive FD soil are investigated. Results demonstrated a much higher accuracy using the VF for approximating Zc ( s ) and H ( s ) than Bode’s method. Transient voltages on the OHTL calculated with Nakagawa’s approach showed notable differences compared to those obtained with Carson’s approach. The voltage peaks are reduced when Nakagawa’s approach is utilized, especially when transmission lines are located on high-resistive soils.

Item Type:	Article
Date Type:	Publication
Status:	Published
Schools:	Engineering
Publisher:	Institute of Electrical and Electronics Engineers
ISSN:	2169-3536
Date of Acceptance:	2 August 2022
Last Modified:	14 Mar 2024 15:00
URI:	https://orca.cardiff.ac.uk/id/eprint/166483

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