Title :
Simulation of streaming electrification in a large core-form transformer winding
Author :
Brubaker, M.A. ; Nelson, J.K.
Author_Institution :
Rensselaer Polytech. Inst., Troy, NY, USA
Abstract :
A network based approach for streaming electrification is extended to a full-scale power transformer structure. This model offers several improvements on the basic macroscopic electrification methodology first proposed by Roach and Templeton (1988). A complete range of flow conditions from laminar to fully turbulent is considered and the effects of power frequency electric fields are included. In addition, the influence of temperature is recognized and static potentials are calculated based on an appropriate leakage current matrix. A complete section of an eight-pass core-form power transformer winding has been examined under a variety of conditions. The results show that the size of the structure is critical and demonstrate the impact of entering charge from the cooling system. Static potentials in excess of 10 kV are shown to be possible under proper conditions with the potential distribution being highly dependent upon energization, flow rate and temperature
Keywords :
electric field effects; electrohydrodynamics; electrostatics; laminar flow; power transformer insulation; transformer cores; transformer windings; turbulence; cooling system; eight-pass core-form transformer winding; energization; entering charge; flow rate; laminar flow; leakage current matrix; potential distribution; power frequency electric fields; power transformer; simulation; streaming electrification; temperature effects; turbulent flow; Conductors; Ducts; Geometry; Leakage current; Oil insulation; Power transformer insulation; Steady-state; Temperature dependence; Transformer cores; Windings;
Conference_Titel :
Properties and Applications of Dielectric Materials, 1994., Proceedings of the 4th International Conference on
Conference_Location :
Brisbane, Qld.
Print_ISBN :
0-7803-1307-0
DOI :
10.1109/ICPADM.1994.414145
