Substantiation of liquid cooling by introducing the frozen balls with developed surface
DOI: 10.17586/1606-4313-2019-18-2-95-101
UDC 621.58
Babakin B. S., Voronin M. I., Babakin S. B., Belozerov A.G., Suchkov A.N.
Keywords: liquid system, cluster of balloons, flow, heat transfer, boundary value problem, eutectic solution.
UDC 621.58
Substantiation of liquid cooling by introducing the frozen balls with developed surface
For citation: Babakin B.S., Voronin M.I., Semenov E.V., Babakin S.B., Belozerov A.G., Suchkov A.N. Substantiation of liquid cooling by introducing the frozen balls with developed surface. Vestnik Mezhdunarodnoi akademii kholoda. 2019. No 2. 95-101 p.
Abstract
The problem of cooling a liquid system by introducing the cluster of frozen balls is formulated and solved within the framework of classical linear boundary value problem for the equation of a stationary convective heat transfer. In the area of actual values of the process parameters for the object of the study the solution obtained is used as the basis for numerical experiment in modelling cooling liquid flow by a system balls. Calculated on the basis of the factors such as temperature, volumetric concentration of balls in a two-phase liquid system, the period of liquid processing by cold and other parameters, the efficiency of the proposed method for liquid cooling is substantiated. In area of actual values of the process parameters in question the results of quantitative analysis demonstrate the obtained results of calculations for liquid cooling process to fit the physical meaning of the phenomenon investigated.
Abstract
The problem of cooling a liquid system by introducing the cluster of frozen balls is formulated and solved within the framework of classical linear boundary value problem for the equation of a stationary convective heat transfer. In the area of actual values of the process parameters for the object of the study the solution obtained is used as the basis for numerical experiment in modelling cooling liquid flow by a system balls. Calculated on the basis of the factors such as temperature, volumetric concentration of balls in a two-phase liquid system, the period of liquid processing by cold and other parameters, the efficiency of the proposed method for liquid cooling is substantiated. In area of actual values of the process parameters in question the results of quantitative analysis demonstrate the obtained results of calculations for liquid cooling process to fit the physical meaning of the phenomenon investigated.
Keywords: liquid system, cluster of balloons, flow, heat transfer, boundary value problem, eutectic solution.