dc.description.abstract | The weakness of the outer insulation at high voltages is the reduction
of the surface resistance as a result of the environmental pollution
yielding formation of flashover due to the surface leakage currents. In
this study, it was shown how to calculate the surface leakage currents
resulting in flashover in polluted insulators and therefore power cuts
by means of the ant colony algorithm (ACA). For this purpose, first,
field distribution on the sample insulator surface in question was
defined by the Laplace equation ( del(2) V = 0). With the help of the
finite element method (FEM), the Laplace equation was obtained as an
equation with a complex coefficient as a complex dielectric coefficient
was used in the problem, which was converted to a set of linear
equations. The solution of this problem was performed by FEM. For this
purpose, a 2D finite element mesh was constructed for the area in
question and the voltages at the nodes of this mesh were calculated. The
current value was then calculated by transferring these voltages to the
open model (AR model) obtained from the 3D model of the insulator. The
ACA was used in the current calculations. After certain values of the
leakage current, dry bands formed on the surface where partial arcs
occurred as a result of the increase in voltage drops. Accordingly,
rapid variations occurred in the current values and the electric field
strengths. These variations, appearing until the formation of an arc
throughout the whole leakage current distance, were calculated gradually
by the ACA. The results obtained were presented graphically. | |