Abstract
Numerical analyses of the effect of a biphasic thermosyphon vapor channel sizes on the heat transfer intensity was conducted when heat removing from an oil tank of a power transformer of combined heat and power station (CHP). The power transformer cooling system by the closed biphasic thermosyphon was proposed. The mathematical modeling of heat transfer and phase transitions of coolant in the thermosyphon was performed. The problem of heat transfer is formulated in dimensionless variables “velocity vorticity vector – current function – temperature” and solved by finite difference method. As a result of numerical simulation it is found that an increase in the vapor channel length from 0.15m to 1m leads to increasing the temperature difference by 3.5 K.
Highlights
One of the most important units of combined heat and power station (CHP) is power transformer
The stability of the power generation depends on the reliability of power transformer operation [1,2,3]
The temperature of winding is one of the main factors determining the reliability of power transformer operation [4,5]
Summary
One of the most important units of CHP is power transformer. The stability of the power generation depends on the reliability of power transformer operation [1,2,3]. The temperature of winding is one of the main factors determining the reliability of power transformer operation [4,5]. The economic effect of this heat removing systems is based on saving the insulation resource of the active part of the transformer. Deterioration of the insulation is determined by the evaluation of the changes of the transformer winding temperature. To reduce the temperature of the windings, the forced cooling of oil is used through the application of additional equipment (circulation pumps and external fans). Failure of such additional equipment leads to emergency mode of power transformer.
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