Calculation method for the dynamic temperature distribution of winding area in dry-type on-board traction transformer

Abstract

Dry-type on-board traction transformers have attracted considerable attention because of their lightweight and flameproof characteristics. The temperature distribution of winding areas is a critical indicator for representing operation performance. This study developed a calculation model for the dynamic temperature distribution of winding areas in dry-type on-board traction transformers under time-varying environments. First, a dynamic temperature calculation model was proposed based on the principle of thermoelectric analogy. Next, for addressing the transient outlet temperature of air ducts in the model, the influences of environment parameters and air duct size on heat dissipation were investigated, and a calculation model for the transient outlet temperature was proposed. Finally, the validity of the proposed dynamic temperature calculation method was verified experimentally, and the method was compared with conventional computational fluid dynamics numerical simulation using line data. The results revealed that for various structural parameters and time-varying operation scenarios, the proposed method could accurately obtain the temperature distribution in the winding area and could save more than 99% of the time cost compared with the conventional method.© 2017 Elsevier Inc. All rights reserved.