Abstract
A porous cooling system has been studied, in which the coolant is supplied under the combined action of capillary and gravitational forces. A capillary-porous cooling system is proposed that simulates a caisson, in which heat transfer processes occur by vaporization of liquid in porous structures. The results of experimental studies of the dependence of the wall temperature on the heat flux density, the effect of the heat flux on the wall overheating ∆T,K are presented. The proposed capillary-porous porous cooling system for caissons intensifies heat transfer in the porous system, increases the reliability of the units, in relation to thermal power plants, ensures the explosion safety of highly forced installations, in particular, for cooling elements of metallurgical furnaces.
Published Version
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