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Warianty tytułu
Efekty powodowane wyładowaniem w wieloprzewodowej linii zasilającej z przewodem uziemionym obciążonym nieliniowo – część I-model
Języki publikacji
Abstrakty
In the paper, which is a companion paper of part II: simulation results and experimental validation, we will present a model for the calculation of induced voltages produced by indirect lightning on multiconductor power lines. In particular, the case of power lines with ground wires terminated on non-linear loads is studied. The power line is represented by an equivalent time domain m-port, and the effects of the lightning excitation are represented through equivalent independent sources. This equivalent time-domain circuit allows treating easily non-linear terminations such as surge arresters.
W artykule zaprezentowano model obliczeń napięć indukowanych podczas nie bezpośredniego wyładowania na wieloprzewodową linię zasilania. Uwzględniono przewód uziemiony podłączony do nieliniowego obciążenia.
Wydawca
Czasopismo
Rocznik
Tom
Strony
301--304
Opis fizyczny
Bibliogr. 33 poz., rys., wykr.
Twórcy
autor
- University of Naples Federico II
autor
- University of Naples Federico II
autor
- University of Naples Federico II
autor
- University of Naples Federico II
Bibliografia
- [1] Chowdury P., Electromagnetic Transients in Power Systems, Wiley (1996), New York, USA
- [2] Piegari L., Rizzo R., Tricoli P., A comparison between line-start synchronous machines and induction machines in distributed generation, Przeglad Elektrotechnicnzy (Electrical Review), (2012), Vol. 88, No. 5b/2012, pp. 187-193
- [3] Brando G., Dannier A., Del Pizzo A., Rizzo R., A High Performance Control Technique of Power Electronic Transformers in Medium Voltage Grid-Connected PV Plants, Proc. 19th International Conference on Electrical Machines ICEM 2010, Rome, Italy, Sept. 2010, pp. 1-6
- [4] Piegari L., Rizzo R., Tricoli P., High efficiency wind generators with variable speed dual-excited synchronous machines. Proc. 2007 International Conference on Clean Electrical Power, ICCEP '07, Capri (Italy), May 2007, pp. 795-800
- [5] Brando G., Dannier A., Del Pizzo A., Rizzo R., Power Electronic Transformer for Advanced Grid Management in Presence of Distributed Generation. International Review of Electrical Engineering (I.R.E.E.), Vol. 6, n. 7, Dec. 2011, ISSN: 1827- 6660
- [6] Andreotti A., Del Pizzo A., Rizzo R., Tricoli P., An efficient architecture of a PV plant for ancillary service supplying. Proc. of SPEEDAM 2010 Intern. Symposium on Power Electronics, Electrical Drives, Automation and Motion, Pisa (Italy), June 2010, pp. 678-682
- [7] Nucci C.A., Rachidi F., Ianoz M., Mazzetti C., Lightninginduced voltages on overhead power lines, IEEE Trans. on Electromagnetic Compatibility, (1993), Vol.35, No. 1, pp.75-86
- [8] Master M.J., Uman M.A., Lightning induced voltages on power lines: theory, IEEE Transactions on Power Apparatus and Systems (1984), Vol. PAS-103, No. 9, pp. 2502-2518
- [9] Andreotti A., Assante D., Mottola F., Verolino L., An exact closed-form solution for lightning-induced overvoltages calculations, IEEE Trans. on Power Delivery, (2009), Vol.24, No.3, pp.1328-1343, DOI: 10.1109/TPWRD.2008.2005395:
- [10] Rachidi F., Nucci C.A., Ianoz M., Transient analysis of multiconductor lines above a lossy ground, IEEE Transactions on Power Delivery, (1999), Vol.14, No. 1, pp. 294–302
- [11] Hoidalen, H.K., Analytical formulation of lightning-induced voltages on multiconductor overhead lines above lossy ground, IEEE Transactions on Electromagnetic Compatibility, (2003), Vol. 45, No.1, pp. 92-100, DOI: 10.1109/TEMC.2002.804772
- [12] Andreotti A., Pierno, A., Rakov V. A., Verolino L., Analytical formulations for lightning-induced voltage Calculations, to be published on IEEE Transactions on Electromagnetic Compatibility, (2012) (available on line), pp.1-15
- [13] Diendorfer G., Induced voltage on an overhead line due to nearbylightning, IEEE Transactions on Electromagnetic Compatibilty, (1990), Vol. 32, No. 4, pp.292–299
- [14] Andreotti A., Assante D., Rakov V.A., Verolino L., Electromagnetic coupling of lightning to power lines: transmission-line approximation versus full-wave solution, IEEE Transactions on Electromagnetic Compatibility, (2011), Vol.53, No.2, pp.421-428, DOI: 10.1109/TEMC.2010.2091682
- [15] Wu S., Hsiao W., Characterization of induced voltages on overhead power lines caused by lightning strokes with arbitrary configurations, Proc. Int. Conf. Syst., Man Cybern., (1994), Vol. 3, pp. 2706–2710
- [16] Andreotti A., De Martinis U., Petrarca C., Rakov V.A., Verolino L., Lightning electromagnetic fields and induced voltages: Influence of channel tortuosity, Proc. XXXth URSI General Assembly and Scientific Symposium, (2011), Istanbul, Turkey, pp.1-4, DOI: 10.1109/URSIGASS.2011.6050702
- [17] Canavero F., Salio S., Vecchi G., Voltage induced on a line by a nearby lightning stroke with a tortuous channel, Proc. 12th Int. Symp. Electromagn. Compat., Zurich, 1997, pp. 425–430
- [18] Andreotti A., Petrarca C., Rakov V. A., Verolino L., Calculation of voltages induced on overhead conductors by nonvertical lightning channels, to be published on IEEE Transactions on Electromagnetic Compatibility, (2012), (available on line), pp.1- 11, DOI: 10.1109/TEMC.2011.2174995
- [19] Heidler F., Analytische Blitzstromfunktion zur LEMPBerechnung, (in German), Proc. 18th Int. Conf. Lightning Protection, (1985), Munich, Germany
- [20] Rakov V. A., Dulzon A. A., A modified transmission line model for lightning return stroke field calculations, Proc. 9th Int. Symp.Electromagn. Compat., (1991) Zurich, Switzerland, pp. 229–235
- [21] Nucci C.A., Mazzetti C., Rachidi F., Ianoz M., On lightning return stroke models for LEMP calculations, Proc. 19th Int. Conf. Lightning Protection (1988), Graz, Austria
- [22] Delfino F., Procopio R., Andreotti A., Verolino L., Lightning return stroke current identification via field measurements, Electrical Engineering (Archiv fur Elektrotechnik), (2002) Vol. 84, No.1, pp.41-50, DOI: 10.1007/s002020100098
- [23] Andreotti A., Falco S., Verolino L., Some integrals involving Heidler’s lightning return stroke current expression, Electrical Engineering (Archiv fur Elektrotechnik), (2005), Vol. 87, No. 3, pp. 121-128, DOI: 10.1007/s00202-004-0240-8
- [24] Abramowitz M., Stegun I.A., Handbook of Mathematical Functions (1965), Dover, New-York, USA
- [25] Nucci C.A., Tension induites par la foudre sur les lignes aériennes de transport d'énergie, Partie II: Modèles de couplage, Electra, (1995) Vol.161, pp.120-145
- [26] Djebari B., Hamelin J., Leteinturier C., Fontaine J., Comparison between experimental measurements of the electromagnetic field emitted by lightning and different theoretical models. Influence of the upward velocity of the return stroke, Proc. 4th International Symposium and Technical Exhibition on Electromagnetic Compatibility(1981), Zurich, Switzerland
- [27] Sommerfeld A., Uber die ausbreitung der wellen in der drahtlosen telegraphie, Ann. Phys. (1909), vol.28, p.665
- [28] Cooray V., Horizontal fields generated by return strokes, Radio Science(1992), vol.27, pp. 529-537
- [29] Rubinstein M., An approximate formula for the calculation of the horizontal electric field from lightning at close, intermediate and long ranges, IEEE Trans. on Electr. Comp. (1996). Vol.38, pp. 531-535
- [30] Agrawal A.K., Price H. J., Gurbaxani, S. H., Transient response of multiconductor transmission lines excited by a nonuniform electromagnetic field, IEEE Trans. Electromagnetic Compatibility, (1980), Vol.22, No.2, pp.119-129
- [31] Maffucci A., Miano G., Irregular Terms in the Impulse Response of a Lossy Multiconductor transmission Line, IEEE Trans. on Circuits and Systems-I (1999), vol.46, pp. 788-805
- [32] Maffucci A., Miano G., Transmission Lines and Lumped Circuits, Academic Press (2001)
- [33] Andreotti A., De Martinis U., Maffucci A., Miano G., Verolino L., Non-linear behaviour of LEMP excited power lines terminated on surge-arresters, Proc. 1999 IEEE International Symposium on Electromagnetic Compatibility, (1999), Vol.2, pp.648-653, DOI: 10.1109/ISEMC.1999.810094
Typ dokumentu
Bibliografia
Identyfikator YADDA
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