Influence Of Earth's Conductivity And Permittivity Frequency Dependence On Overhead Transmission Lines: Analysis For The One - Conductor Case [influência Da Dependência De Parâmetros Do Solo Com A Frequência Na Modelagem De Linhas Aéreas De Transmissão: Caso De Condutor único]

Gertrudes J.B.; Tavares M.C.; Portela C.

dc.creator	Gertrudes J.B.
dc.creator	Tavares M.C.
dc.creator	Portela C.
dc.date	2011
dc.date	2015-06-30T20:35:29Z
dc.date	2015-11-26T14:51:36Z
dc.date	2015-06-30T20:35:29Z
dc.date	2015-11-26T14:51:36Z
dc.date.accessioned	2018-03-28T22:03:15Z
dc.date.available	2018-03-28T22:03:15Z
dc.identifier
dc.identifier	Controle Y Automacao. , v. 22, n. 5, p. 506 - 522, 2011.
dc.identifier	1031759
dc.identifier
dc.identifier	http://www.scopus.com/inward/record.url?eid=2-s2.0-82555168022&partnerID=40&md5=8a74168db79cfe865d2b73e7865cbe11
dc.identifier	http://www.repositorio.unicamp.br/handle/REPOSIP/108531
dc.identifier	http://repositorio.unicamp.br/jspui/handle/REPOSIP/108531
dc.identifier	2-s2.0-82555168022
dc.identifier.uri	http://repositorioslatinoamericanos.uchile.cl/handle/2250/1254528
dc.description	In this paper the influence of earth's conductivity and permittivity frequency dependence are evaluated when calculating transversal and longitudinal transmission lines' parameters. The aim is to compare results calculated from the complex plane method and Carson's modified expressions on longitudinal parameters and also between Carson's modified potential-coefficient correction factors and results from approximations methods for transversal admittance parameters. The importance of properly considering the frequency-dependent soil model is presented for oneconductor case, in order to compare the longitudinal and transversal parameters considering the earth's conductivity and permittivity frequency dependence soil model in relation to the common soil representation with a constant conductivity and a permittivity that can be neglected assuming a low frequency approximation.
dc.description	22
dc.description	5
dc.description	506
dc.description	522
dc.description	Arismunandar, A., Capacitive correction factors for transmission lines to include finite conductivity and dielectric of the earth (1963) Proceedings of the AIEE Summer General Meeting and Nuclear Radiation Effects Conference, pp. 436-455. , Toronto, Ont., Canadá, June 16-21, 1963
dc.description	Carson, J.R., Wave propagation in overhead wires (1926) Bell System Technical Journal, 5, p. 539554. , 1926
dc.description	Deri, A., Tevan, G., Semlyen, A., Castanheira, A., The complex ground return plane, a simplified model for homogeneous and multi-layer earth return (1981) IEEE Trans. PAS, 100 (8), p. 36863693. , 1981
dc.description	Dwight, H.B., Skin effect in tubular and flat conductors (1918) AIEE Transactions, 37 (2 PART), pp. 139-1403. , 1918
dc.description	Nakagawa, M., Further studies on wave propagation along overhead transmission lines: Effects of admittance correction (1981) IEEE PES Winter Meeting, , Atlanta, Georgia, 1981
dc.description	Portela, C., Frequency and transient behavior of grounding systems I-physical and methodological aspects (1997) Proceedings 1997 International Symposium on Electromagnetic Compatibility, pp. 380-384. , August Agosto 1997, United StatesEUA
dc.description	Portela Carlos, Measurement and modeling of soil electromagnetic behavior (1999) IEEE International Symposium on Electromagnetic Compatibility, 2, pp. 1004-1009
dc.description	Portela, C., Grounding requirement to assure people and equipment safety against lightning (2000) Proceedings IEEE 2000 International Symposium on Electromagnetic Compatibility, pp. 969-974. , August 2000, Washington DC, United StatesEUA
dc.description	Portela, C.M., Gertrudes, J.B., Tavares, M.C., Pissolato, J., Earth conductivity and permittivity data measurements: Influence in transmission line transient performance (2006) Electric Power Systems Research, 76 (11), pp. 907-915. , DOI 10.1016/j.epsr.2005.11.006, PII S0378779605002658
dc.description	Portela, C., Tavares, M.C., Pissolato, J., Accurate representation of soil behaviour for transient studies (2003) IEE Proceedings on Genereation, Transmission and Distribution, 150 (6), pp. 734-744. , Nov. 2003
dc.description	Rachidi, F., Nucci, C.A., Ianoz, M., Mazzetti, C., Influence of a lossy ground on lightning-induced voltages on overhead lines (1996) IEEE Trans. Electromagn, 38 (2). , Compatibility IEEE Transactions on EMC, Agosto, 1996
dc.description	Sunde, E.D., (1948) Earth Conduction Effects in Transmission Systems, , Princeton, New Jersey: Van Nostrand, 1948
dc.description	Tesche, F.M., Comparison of the transmission line and scattering models for computing the HEMP response of overhead cables (1992) IEEE Trans. Electromagn. Compatibility, 34. , May 1992
dc.description	Wise, W.H., Effect of ground permeability on ground return circuits (1931) Bell System Technical Journal, 10, pp. 472-484. , New York, Jul. 1931
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dc.language	pt
dc.publisher
dc.relation	Controle y Automacao
dc.rights	aberto
dc.source	Scopus
dc.title	Influence Of Earth's Conductivity And Permittivity Frequency Dependence On Overhead Transmission Lines: Analysis For The One - Conductor Case [influência Da Dependência De Parâmetros Do Solo Com A Frequência Na Modelagem De Linhas Aéreas De Transmissão: Caso De Condutor único]
dc.type	Artículos de revistas

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