Abstract
According to the results of the analysis and generalization of experimental data, the effect of heat removal conditions in a vertical two-phase thermosyphon on the heat transfer intensity in it in the range of heat flows to the lower cover, from 182 to 3450 kW/m2 is shown. It has been established that with a smaller area of heat removal in thermosyphon, the average heat transfer coefficient in the evaporation part is higher in the whole studied range of heat fluxes due to smaller temperature differences between the heating and transport parts.According to the results of the analysis and generalization of experimental data, the effect of heat removal conditions in a vertical two-phase thermosyphon on the heat transfer intensity in it in the range of heat flows to the lower cover, from 182 to 3450 kW/m2 is shown. It has been established that with a smaller area of heat removal in thermosyphon, the average heat transfer coefficient in the evaporation part is higher in the whole studied range of heat fluxes due to smaller temperature differences between the heating and transport parts.
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