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Simulation of the potential and electric field distribution on high voltage insulator using the finite element method

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The knowledge of the distribution of the electric field within and around high voltage equipment is a crucial aspect of the design, exploitation and performance of high voltage insulators. It could be useful for the detection of defects in insulators. The objective of this study is predicting the behavior of polluted insulator under AC voltage. For thus, the distribution of the potential and the electric field along high voltage insulator is investigated using a numerical method. The commercial Comsol Multiphysics proved to be one of the best software used in 2D modeling. The potential and the electric field distributions along this insulator are simulated under various conditions: the two cases: clean and polluted insulators and applying different conductivity values. We used electrostatic 2D simulations in the AC/DC module. The results are auspicious and promising.
Czasopismo
Rocznik
Strony
41--52
Opis fizyczny
Bibliogr. 35 poz., rys., tab.
Twórcy
  • Laboratoire de recherche (LI3CUB), Biskra University, BP 145 RP, 07000, Biskra, Alegria
  • Department of Electrical Engineering, Faculty of Technology, M’sila University, B.P. 166, 28000, M’sila, Algeria
autor
  • Laboratoire de recherche (LI3CUB), Biskra University, BP 145 RP, 07000, Biskra, Alegria
  • Department of Electrical Engineering, Faculty of Engineer Sciences, Boumerdes University, Avenue de l'Indépendance, 35000, Boumerdes, Algeria
autor
  • Laboratoire de Recherche en Electrotechnique (L.R.E). Ecole Nationale Polytechnique, Algiers, Algeria
Bibliografia
  • 1. Bessedik SA, Hadi H. Dynamic arc model of the flashover of the polluted insulators. IEEE Conference on Electrical Insulation and Dielectric Phenomena. CEIDP. Cancun, Mexico 2011;550-554. DOI: 10.1109/CEIDP.2011.6232716
  • 2. Benguesmia H, M’ziou N, Boubakeur A. Study of the pollution effect on the high voltage of the cap and pin (1512L) insulator using Comsol multiphysics. The International Conference on Mechanics and Energy (ICME2016-114), Hammamet, Tunisia, 22-24 December 2016.
  • 3. Suflis SA, Gonos IF, Topalis FV, Stathopulos IA. Study of the dielectric behaviour of non-uniformly polluted insulators. XIII International symposium on high voltage engineering, Netherlands 2003; 1-4.
  • 4. Terrab H, Bayadi A. Experimental study using design of experiment of pollution layer effect on insulator performance taking into account the presence of dry bands. IEEE Transactions on Dielectrics and Electrical Insulation 2014; 21(6):2486 - 2495. DOI: 10.1109/TDEI.2014.004542
  • 5. Benguesmia H, M’ziou N, Boubakeur A. AC Flashover: An Analysis with Influence of the Pollution, Potential and Electric Field Distribution on High Voltage Insulator. International Conference Multiphysics Simulation for Systems Design, Sousse Tunisia, 17-19 December 2014:269-279. DOI: 10.1007/978-3-319-14532-7
  • 6. Gencoglu MT, Cebeci M. Computation of AC flashover voltage of polluted HV insulators using a dynamic arc model. European Transactions On Electrical Power, 2009; 19(5):689-701. DOI: 10.1002/etep.249
  • 7. Sunitha NS, Ravi KN, Prakash R, Pushpanjali. A study on leakage current characteristics of polymeric insulator for diffrent pollution layers. International Conference on Power and Advanced Control Engineering (ICPACE) 2015;:383-387. DOI: 10.1109/ICPACE.2015.7274977
  • 8. Mei H, Wang L, Guan Z. Influence of sugar as a contaminant on outdoor insulation characteristics of insulators in a substation. IEEE Transactions on Dielectrics and Electrical Insulation 2012; 19(4):1318-1324. DOI: 10.1109/TDEI.2012.6260007
  • 9. Houlgate RG, Lambeth PJ, Roberts WJ. The performance of insulators at extra and ultra high voltage in a coastal environment. International conference on large high voltage electric systems, CIGRE, report, Paris 1978;:33-01 http://www.e-cigre.org/Order/select.asp?ID=6329
  • 10. Keller-Jacobsen J, Pedersen AA, Rasmussen JK, Henriksen A, Lindqvist C, Smedsfelt S. Field and laboratory tests for the proper dimensioning of insulators exposed to salt pollution. International conference on large high voltage electric systems, CIGRE, report, Paris 1978;: 33-11. http://www.e-cigre.org/Order/select.asp?ID=6669
  • 11. El-Koshairy M.A.B, El-Arabaty A.M, EL-Sayed, Aly A.H, Mansour E.A.A, Abdullah A.E, El-Debeiky S. The performance of high voltage transmission lines epoxy resin insulators under desert pollution conditions. International conference on large high voltage electric systems, CIGRE, report, Paris 1978;:15-12. http://www.e-cigre.org/Order/select.asp?ID=6597
  • 12. El-Arabaty A, Nosseir A.R, El Debeiky S, Nasser E, El-Sarky A. Selection of insulators suitable for operation in contaminated environments with reference to desert conditions. International conference on large high voltage electric systems, CIGRE, report, Paris 1980;: 33-11. http://www.e-cigre.org/Order/select.asp?ID=6510
  • 13. El-koshairy MAB, Khalifa MM, Nosseir AR, El-sharkawi E, Awad MM, Zarzoura HEM. Pollution performance of high voltage insulator strings in a desert environment. International conference on large high voltage electric systems, CIGRE, report, Paris 1982;: 33-09. http://www.e-cigre.org/Order/select.asp?ID=6337
  • 14. Pel-Zhong H, Cheng-Dong X. The tests and investigations on naturally polluted insulators and their application to insulation design for polluted areas. International conference on large high voltage electric system, CIGRE, report, Paris 1982;:33-07. http://www.e-cigre.org/Order/select.asp?ID=6335
  • 15. Aydogmus Z, Cebeci M. A new flashover dynamic model of polluted HV insulators. IEEE Transactions on Dielectrics and Electrical Insulation 2004; 11(4):577-584. DOI: 10.1109/TDEI.2004.1324347
  • 16. Bessedik S.A. Contournement des isolateurs pollués. Ph.D. thesis in Sciences, Department of Electrical Engineering, University of oran,Oran, Algeria, 28 juin 2015.
  • 17. Rasalonjanahary J, Krahenbuhl L, Nicolas A. Computation of electric fields and potential on polluted insulators using a boundary element method. IEEE Transportation On Magnetics 1992; 28(2):1473-1476. DOI: 10.1109/20.123974
  • 18. Hartings R. Electric fields along a post insulator: Ac-measurements and calculations. IEEE Transactions on Power Delivery 1994; 9(2):912-918. DOI: 10.1109/61.296274
  • 19. El-Kishky H, Gorur R. Electric potential and field computation along AC HV insulators. IEEE Transactions on Dielectrics and Electrical Insulation 1994;1(6):982-990. DOI: 10.1109/94.368665
  • 20. Volat C, Farzaneh M. Three-dimensional modeling of potential and electric-field distributions along an EHV ceramic post insulator covered with ice-part i:simulations of a melting period. IEEE Transactions on Power Delivery 2013; 20(3):2006-2013. DOI: 10.1109/TPWRD.2005.848460
  • 21. Andrew J. Electric fields on AC composite transmission line insulators. IEEE Transactions on Power Delivery 2008; 23(2):823-830. DOI: 10.1109/TPWRD.2007.911127
  • 22. M'hamdi B, Teguar M, Mekhaldi A. Potential and Electric Field Distributions on HV Insulators String Used in The 400 kV Novel Transmission Line in Algeria. IEEE International Conference on Solid Dielectrics, (ICSD), Bologna, Italy June30–July4, 2013;190-193. DOI: 10.1109/ICSD.2013.6619653
  • 23. Sima W, Yang Q, Sun C, Guo F. Potential and electric-field calculation along an ice-covered composite insulator with finite-element method. IEE Proceedings-generation Transmission and Distribution 2006; 153(3):343-349. DOI: 10.1049/ip-gtd:20050227
  • 24. Arora R, Mosch W. High voltage insulation engineering. Wiley-IEEE press series on power engineering. First Edition. Institute of Electrical and Electronics Engineers. Published by John Wiley & Sons, Inc. 2011. http://onlinelibrary.wiley.com/doi/10.1002/9780470947906.fmatter/pdf
  • 25. Guan Z, Wang L, Yang B, Liang X, Li Z. Electric field analysis of water drop corona. IEEE Transactions on power delivery 2005; 20(2):964-969. DOI: 10.1109/TPWRD.2004.837672
  • 26. Gu Y, Li J. Finite element analysis of the instep fatigue trauma in the high-heeled gait. World Journal of Modelling and Simulation 2005; 1(2):117-122.
  • 27. Liu Y, Yu C, Sun X, Wang J. 3d fe model reconstruction and numerical simulation of airflow for the upper airway. World Journal of Modelling and Simulation 2006; 2(3):190-195.
  • 28. Meeker D. Finite Element Method Magnetics. User’s Manual, Version 4.2; 2006.
  • 29. Muniraj C, Chandrasekar S. Finite Element Modeling for Electric Field and Voltage Distribution along the Polluted Polymeric Insulator. World Journal of Modelling and Simulation 2012; 8(4):310-320.
  • 30. Nicolopoulou EP, Gralista EN, Kontargyri VT, Gonos IF, Stathopulos IA. Electric field and voltage distribution around composite insulators. XVII International Symposium on High Voltage Engineering, August 22-26, Hannover, Germany 2011.
  • 31. M'hamdi B. Amélioration des performances des chaînes d’isolateurs de haute tension. Ph.D. thesis in Sciences, Department of Electrical Engineering, Ecole Nationale Polytechnique, Algiers, Algeria, 14 December 2016.
  • 32. M’ziou N, Bengasmia H, Guia T. Influence of the Pollution on the Flashover of High Voltage Insulator. Word Academy of Science Engineering and Technology, Dubai, January 2012, (61):1595-1597.
  • 33. Benguesmia H, M’ziou N, Boubakeur A. Influence de la Pollution Discontinue sur la Tension de Contournement d’un Isolateur de Haute Tension. 7th International Conference on Electrical Engineering, Batna, Alegria, 8-10 October 2012: 556-558.
  • 34. Benguesmia H, M’ziou N, Boubakeur A. Influence de la Pollution sur le Contournement d’un Isolateur de Haute Tension. The International Conference on Electronics & Oil: from Theory to Applications, Ouargla, Algeria, proceeding, March 2013: 51.
  • 35. Benguesmia H, M’ziou N, Chouchou A M, Rachdi L. Experimental Study of the various pollution and simulation of potential and electric field distribution using FEMM at a high voltage insulator under alternative current. International Symposium on Computational and Experimental Investigations of Fluid and Structure Dynamics, (CEFSD2015-94), Hammamet, Tunisia, 16-18 March 2015:144.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8b0223ac-7bf1-4903-bb14-53541ae5e25c
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