Correlation between Capacitance and Dissipation Factor used for Assessment of Stator Insulation
| Autor: | Oslinger, José Luis, Castro, Luis Carlos |
|---|---|
| Jazyk: | angličtina |
| Rok vydání: | 2012 |
| Předmět: | |
| DOI: | 10.5281/zenodo.1071868 |
| Popis: | Measurements of capacitance C and dissipation factor tand of the stator insulation system provide useful information about internal defects within the insulation. The index k is defined as the proportionality constant between the changes at high voltage of capacitance DC and of the dissipation factor Dtand . DC and Dtand values were highly correlated when small flat defects were within the insulation and that correlation was lost in the presence of large narrow defects like electrical treeing. The discrimination between small and large defects is made resorting to partial discharge PD phase angle analysis. For the validation of the results, C and tand measurements were carried out in a 15MVA 4160V steam turbine turbogenerator placed in a sugar mill. In addition, laboratory test results obtained by other authors were analyzed jointly. In such laboratory tests, model coil bars subjected to thermal cycling resulted highly degraded and DC and Dtand values were not correlated. Thus, the index k could not be calculated. {"references":["C. Sumereder, \"Statistical lifetime of hydro generators and failure\nanalysis,\" IEEE Trans. Dielectrics and Electrical Insulation, vol.15, pp.\n678-685, June 2008.","T. W. Dakin, \"The Relation of Capacitance Increase with High Voltages\nto Internal Electric Discharges and Discharging Void Volume,\" IEEE\nTrans. Power Apparatus and Systems, Part III, vol.78, pp.790-794,\nApril 1959.","M. Barnikas, Engineering Dielectrics, vol I. Baltimo, MD: ASTM, 1979,\npp. 22-25.","P. Tavner, L. Ran, J. Penman, H. Sedding, Condition monitoring of\nelectrical machines. Gateshead, Tyne & Wear: Athenaeum Press Ltd,\n2008, pp 13-50.","L. Weixian, L. Jingliang, S. Wanfa, \"Study of rapid thermal evaluation\nfor form-wound winding insulation systems,\" in Proc. 2nd Conf.\nProperties and Applications of Dielectric Materials, Beijing, 1988, pp.\n438-441.","M. Kaufhold, K. Schafer, K. Bauer, A. Bethge, J. Risse, \"Interface\nphenomena in stator winding insulation ÔÇö challenges in design,\ndiagnosis, and service experience,\" IEEE Electrical Insulation\nMagazine, vol. 18, pp. 27-36, 2002.","T. Br├╝gger, \"A New Test Method for Assessing the Impact of Thermal\nCycling on Hydrogenerator Stator Insulation,\" in Conf. Rec. 2010 IEEE\nInt. Conf. Electrical Insulation and Dielectric Phenomena, pp. 1-4.","G. C. Stone, M. Sasic, \"Recent problems experienced with motor and\ngenerator windings,\" in Conf. Rec. 2009 Petroleum and Chemical\nIndustry Conf. Annual Industry Applications Society, pp. 1-9.","J. Zhidong, P. Xiang, G. Zhicheng, W. Liming, Y. Bo, \"Evaluation of\nthe Degradation of Generator Stator Ground Wall Insulation Under\nMultistresses Aging,\" IEEE Trans. Energy Conversion, vol. 23, pp.474-\n483, June 2008.\n[10] Y. Bo, Z. Zhelei, C. Xiaolin, X. Hengkun, \"Study on the characteristic\nparameters used to assess the insulation condition of stator winding,\" in\nProc. 7th Conf. Properties and Applications of Dielectric Materials,\nNagoya, 2003, pp. 278- 280.\n[11] B. Sonerud, T. Bengtsson, J. Blennow, S.M. Gubanski, S. Nilsson,\n\"Capacitance measurements and tree length estimation during electrical\ntreeing in sub-picofarad samples,\" IEEE Trans. Dielectrics and\nElectrical Insulation, vol. 16, pp.1707-1709, December 2009.\n[12] R. Vogelsang, B. Fruth, K. Frohlich, \"Detection of electrical tree\npropagation in generator bar insulations by partial discharge\nmeasurements,\" in Proc. 7th Conf. Properties and Applications of\nDielectric Materials, Nagoya, 2003, pp. 281- 285.\n[13] Y. Bo, C. Xiaolin, C. Yonghong, S. Jiancheng, X. Hengkun, \"Diagnosis\nof stator winding insulation of large generator based on partial discharge\nmeasurement,\" IEEE Trans. Energy Conversion, vol. 21, pp. 387- 395,\nJune 2006.\n[14] M. Farahani, H. Borsi, E. Gockenbach, \"Study of Capacitance and\nDissipation Factor Tip-Up to Evaluate the Condition of the Insulating\nSystems for High Voltage Rotating Machines\", Electrical Engineering,\nvol. 89, pp. 263-270, March 2007.\n[15] M. Farahani, E. Gockenbach, H. Borsi, M. Kaufhold, \"Behavior of a\nMachine Insulation System during Accelerated Aging Tests,\" in Conf.\nRec. 2008 IEEE Int. Symp. Electrical Insulation, pp.404-407.\n[16] M. Farahani, E. Gockenbach, H. Borsi, M. Kaufhold, K. Sch├ñfer,\n\"Behavior of machine insulation systems subjected to accelerated\nthermal aging test,\" IEEE Trans. Dielectrics and Electrical Insulation,\nvol.17, pp. 1364-1372, October 2010.\n[17] H. Zhu, D. Kung, \"Acoustic monitoring of insulation delaminations\nduring thermal cycling tests on a stator bar,\" in Conf. Rec. 2009 IEEE\nInt. Conf. Electrical Insulation, pp.183-187.\n[18] G.C. Stone, H.G. Sedding, B.A. Lloyd, B.K. Gupta, \"The ability of\ndiagnostic tests to estimate the remaining life of stator insulation,\" IEEE\nTrans. Energy Conversion, vol.3, pp.833-841, December 1988."]} |
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