Abstract
Partial discharges (PDs) constitute important phenomena in a Gas-Insulated System (GIS) that warrant recognition (and, subsequently, mitigation) as they are obvious symptoms of system degradation. This paper proposes the application of dimensional analysis, based on Buckingham pi theorem, for characterizing PDs provoked by the presence of metallic particles adhering to the spacer surface in a GIS employing SF6 (Sulphur hexafluoride). The ultimate goal of the analysis is to formulate the relationships that express three PD indicator quantities, namely current, charge, and energy, in terms of six independent quantities that collectively influence these indicators. These six quantities (henceforth referred to as the influencing, determining or affecting variables) include the level of applied voltage, the SF6 pressure, the length and position of the particle on the spacer, the duration of voltage application, and the gap between electrodes. To compute the pertinent dimensionless products, we implement three computational methods based on matrix operations. These three methods produce exactly the same dimensionless products, which are subsequently used for constructing the models depicting the relationships between each of the three PD dependent quantities and the common six determining variables. The models derived provide partial quantitative information and facilitate qualitative reasoning about the considered phenomenon.
Highlights
Gas-Insulated Systems utilizing Sulphur hexafluoride (SF6 GISs, for short) have been widely used for power substations worldwide, especially in densely-populated areas with very limited vacant spaces
A spacer was located between the high voltage (HV) and the grounded electrodes, while a single small piece of metallic material was glued on the spacer to replicate the condition in a real GIS, in which such a metallic particle is attached to the spacer
The level of the applied voltage was varied and various quantitative indicators of the generated Partial discharges (PDs) were measured at different SF6 pressure values by using a special PD measurement system, which is based on the IEC 60270 standard [23,24,25,26]
Summary
Gas-Insulated Systems utilizing Sulphur hexafluoride (SF6 GISs, for short) have been widely used for power substations worldwide, especially in densely-populated areas with very limited vacant spaces. The SF6 gas poses no dangerous detrimental threat to health since it enjoys the desirable feature of being both non-flammable and non-toxic. It has good arcquenching properties and advanced heat transfer characteristics [2, 3]. One of the most notorious GIS defects is related to the presence of one or more metallic particles, which may be introduced into the GIS during manufacturing, installation, and/or operation. In certain conditions, such contaminants can adhere, stick, or attach to the insulation spac-
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