Influence of oil–paper configuration on electric field distribution of main insulation structure on valve‐side winding of UHV‐DC converter transformer

Abstract

The main insulation structure of the valve-side winding of converter transformer bears the effect of AC and DC superimposed voltage during operation. The electric field intensity in the pressboard is much higher than that in the pressboard in the AC transformer. This condition increases the probability of failure of insulation structure. Therefore, the design and optimization of the main insulation structure of the valve-side winding are keys to ensure the stable operation of converter transformer. This study establishes a model of the main insulation structure of the valve-side winding of the ±1100 kV converter transformer. The influence of the insulating oil–paper configuration on the electric field distribution of the main insulation structure of the valve-side winding is analysed, and then, an optimization idea is proposed. The oil–paper configuration includes two aspects: oil–paper insulation structural design and combination selection, that is, the influence of typical oil–paper structural design parameters and the aging state of different oil–paper combinations on the electric field distribution. Finally, the optimization idea of the oil–paper configuration for valve-side winding of converter transformer is obtained, and the established model is optimized.