论文信息 - Numerical study of parameters affecting the temperature distribution in a disc-type transformer winding

Numerical study of parameters affecting the temperature distribution in a disc-type transformer winding

In this paper, the effect of the numerical model, mass flow rate and inlet boundary conditions on the flow and temperature distributions in a disc-type transformer winding is investigated using a commercial CFD code. For the winding under investigation, it was found that the results obtained with simplified models are quite different from those computed with a complete Conjugate Heat Transfer model that considers the individual copper conductors forming the disc. The temperature profile (uniform or non-uniform) specified at the inlet of the winding is another parameter having a significant influence on the hot-spot temperature prediction and the paper stresses that a refined model is needed to capture this effect. The numerical results also indicate that a higher flow rate gives a more efficient cooling of the winding since the temperature distribution is more uniform and the hot-spot factor is reduced.

F. Torriano | Patrick Picher | M. Chaaban

[1] M. Barati,et al. An investigation of parameters affecting the temperature rise in windings with zigzag cooling flow path , 2007 .

[2] Eric Van den Bulck,et al. Modelling of the mixed convection in the windings of a disc-type power transformer , 2000 .

[3] Jiahui Zhang,et al. Experiments and modeling of heat transfer in oil transformer winding with zigzag cooling ducts , 2008 .

[4] J. Declercq,et al. Accurate hot spot modeling in a power transformer leading to improved design and performance , 1999, 1999 IEEE Transmission and Distribution Conference (Cat. No. 99CH36333).

[5] N. E. Wakil,et al. Numerical study of heat transfer and fluid flow in a power transformer , 2006 .

[6] C. O. Olsson,et al. NUMERICAL STUDY ON MIXED CONVECTION AND THERMAL STREAKING IN POWER TRANSFORMER WINDINGS , 2008 .