Your search keyword '"Hemmatjou, H."' showing total 3 results

1. On the Frequency Domain Dielectric Response of Oil-paper Insulation at Low Temperatures.

Author

Fofana, I., Hemmatjou, H., Meghnefi, F., Farzaneh, M., Setayeshmehr, A., Borsi, H., and Gockenbach, E.

Subjects

*PAPER, *ELECTRIC insulators & insulation, *DIELECTRICS, *LOW temperatures, *SPECTRUM analysis, *ELECTRIC conductivity

Abstract

Results of Frequency Domain Spectroscopy measurements are known to be largely influenced by environmental conditions, such as the temperature. Because field measurements, last hours after de-energizing the transformer, the ambient temperature may affect the results. Especially in cold regions of the world, extreme care are required to interpret the results when performing tests at relatively low surrounding temperatures. A better understanding and analysis of the dielectric test results are therefore only possible with a clear understanding of the physical behavior of the insulation system in response to the ambient conditions. In this contribution, the dielectric behavior of a composite oil paper insulation system has been explained from the properties of Debye basic model. A series of experiments have been performed under controlled laboratory conditions with preset moisture content inside the insulation. The equivalent circuit parameters of a laboratory made oil paper condenser bushing model were obtained using a non-linear optimization procedure. Since the dielectric parameters values are geometry dependent, poles, calculated from resistances and capacitances, were used as they are independent of the geometry. It was shown that the poles can be regarded as parameters able to be used for insulation condition assessment. [ABSTRACT FROM AUTHOR]

Published

2010

2. Low temperature and moisture effects on polarization and depolarization currents of oil-paper insulation

Author

Fofana, I., Hemmatjou, H., and Farzaneh, M.

Subjects

*POLARIZATION (Electricity), *ELECTRIC currents, *BROADBAND dielectric spectroscopy, *LOW temperatures, *MOISTURE, *ELECTRIC conductivity, *ELECTRIC insulators & insulation

Abstract

Abstract: In the last decades, dielectric testing techniques are being used and investigated as potential tools for condition assessment of oil-paper insulation. From fields and laboratory investigations these techniques were found to be highly operating conditions (moisture, ageing, temperature, etc.) dependant. Because field measurements (generally performed after de-energizing the transformer), last hours after de-energizing the transformer, the ambient temperature may affect the results. Especially in cold regions of the world, extreme care is required to interpret the results when performing tests at surrounding low temperatures. A better understanding and analysis of the dielectric test results are therefore only possible with a clear understanding of the physical behaviour of the insulation system in response to the ambient conditions. In the current research project, a series of experiments have been performed under controlled laboratory conditions with preset moisture content inside the insulation. This paper reports the effects of low temperature on the time domain dielectric response of oil impregnated paper insulation. [Copyright &y& Elsevier]

Published

2010

3. Relationship between static electrification of transformer oils with turbidity and spectrophotometry measurements.

Author

Fofana, I., Bouslimi, Y., Hemmatjou, H., Volat, C., and Tahiri, K.

Subjects

*STATIC electrification, *INSULATING oils, *SPECTROPHOTOMETRY, *ELECTROSTATICS, *ELECTRIFICATION, *TURBIDITY

Abstract

Highlights: [•] Electrostatic charging tendency of fresh and aged oils were investigated in a spinning disk system. [•] The electrification currents were related to classical aging indexes. [•] Two testing procedures developed by ASTM were used to monitor decay products as trace impurities. [•] The electrification currents increase with temperature, fluid velocity and disk properties. [•] The electrification is definitely related to turbidity and spectrophotometry measurements. [ABSTRACT FROM AUTHOR]

Published

2014