Artículos de revistas
Analysis Of Electric Characteristics Of High-elevation Stretches Of The Tucuruí-macapá-manaus Connection
Registro en:
Journal Of Control, Automation And Electrical Systems. , v. 24, n. 5, p. 714 - 724, 2013.
21953880
10.1007/s40313-013-0059-5
2-s2.0-84892147105
Autor
Kurokawa S.
Costa E.C.M.
Pinto A.J.G.
Filho J.P.
Institución
Resumen
This article contains a detailed study of the parameters and electric characteristics of a transmission system proposed to electrically connect the cities ofTucuruí,Macapá and Manaus. Several sections of this transmission line will be supported by steel towers 280 m high to suspend the line above the Amazon tropical forest. The height of the line and the presence of two dielectrics in the system-the air and the forest-produce unique line parameters compared to the longitudinal parameters of a conventional line, which is approximately 40 m high. A preliminary analysis of the parameters of a line section of the Tucuruí-Macapá-Manaus connection is conducted in this article. The behaviors of potential surges in the line resulting from switching operations and atmospheric discharges are also investigated. © Brazilian Society for Automatics-SBA 2013. 24 5 714 724 De Doile, G.N.D., Nascimento, R.L., Tucuruí transmission line - 1800 km of Regional Integration (2010) Revista T&C Amazônia, 8 (18), pp. 58-62 Dommel, H.W., (1986) Electromagnetic Transients Program Reference Manual, , Vancouver, Canada: Department of Electrical Engineering, University of British Columbia Frota, W.M., Supply Structure Improvements for the Isolated Electrical systems of Manaus and Macapá (2005) Revista T&C Amazônia, 3 (6), pp. 23-29 Fuchs, R.D., (1979) Transmissão de Energia Elétrica: Linhas Aéreas Teoria das Linhas em Regime Permanente. [Transmission of Electrical Energy: Overhead Lines Theory of Lines at Steady State], , Rio de Janeiro: Livros Técnicos e Científicos (2011), http://www.hebeicomms.com, Accessed 15 April 2011Hofmann, L., Series expansions for line impedances considering different specific resistances, magnetic permeabilities and dielectric permittivities of air and ground (2003) IEEE Transactions on Power Delivery, 18 (2), pp. 564-570 (2010) High-voltage Test Techniques - Part 1: General Definitions and Test Requirements, , IEC 60060-1. Ed. 3 Kurokawa, S., Yamanaka, F.N.R., Prado, A.J., Bovolato, L.F., Pissolato, J., Representaiton of Transmission Lines through State Variables taking into Consideration the Effect of Frequency on the Longitudinal Parameters (2007) Revista Controle & Automação, 18 (3), pp. 337-346 Lima, A.C.S., Portela, C., Inclusion of frequency-dependent soil parameters in transmission-line modeling (2007) IEEE Transactions on Power Delivery, 22 (1), pp. 492-499 Martinez, J.A., Gustavsen, B., Durbak, D., Parameters determination for modeling system transients - Part 1: Overhead lines (2005) IEEE Transactions on Power Delivery, 20 (3), pp. 2038-2044 Mingli, W., Yu, F., Numerical calculations of internal impedance of solid and tubular cylindrical conductors under large parameters (2004) IEE Proceedings on Generation, Transmission and Distribution, 151 (1), pp. 67-72 Nguyen, H.V., Dommel, H.W., Marti, J.R., Direct phasedomain modelling of frequency-dependent overhead transmission lines (1997) IEEE Transactions on Power Delivery, 12 (3), pp. 1335-1342 Notaros, B.M., (2011) Eletromagnetismo [Electromagnetism], , São Paulo: Pearson (2011) Operador Nacional do Sistema Elétrico [National Electrical System Operator] - ONS, , http://www.ons.gov.br, Accessed 15 April 2011 Pinheiro, M.P., Tavares, M.C., Analysis of the sensitivity of electrical parameters of transmission lines depending on frequency (2009) Revista Controle & Automação, 20 (3), pp. 335-344 Rachidi, F., Tkachenko, S.V., (2008) Electromagnetic Field Interaction with Transmission Lines: From Classical Theory to HF Radiation Effects, , Southampton, UK: WIT Wang, Y.J., Liu, S.J., A review of methods for calculation of frequency-dependent impedance of overhead power transmission lines (2001) Proceedings of the National Science Council, 25 (6), pp. 329-338