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• W289157332 abstract "This chapter describes a fundamental study on an ice-layer formation and the melting along a cooling surface, positioned at the top boundary of a rectangular space filled with water-saturated porous medium. The temperature of the cooling surface is varied periodically with time, while the temperature at the bottom is kept constant, with all side walls being thermally insulated. In such conditions natural convection has a significant impact on the heat balance at the solid—liquid boundary that develops into the unfrozen layer. The goal of this study is to develop a one-dimensional model which is capable of predicting the transient response of the ice-layer to a prescribed cooling temperature variation. In the course of the formulation, the Stefan number, the Rayleigh number and the cooling temperature conditions are identified as the important parameters of the problem. The one-dimensional theory predicts that a higher cooling temperature frequency generally reduces the oscillating solid front, and that a thicker solid layer increases the phase delay of the front movement relative to the cooling temperature variation. The validity of the one-dimensional model has been tested against two-dimensional numerical simulations for the dynamic response of the interface movement. An excellent agreement between the one-dimensional model and two-dimensional simulations has been obtained, and further experiments have been conducted in order to verify the numerical models. In our experiments, spherical glass beads saturated with distilled water is used as a porous medium. The lower boundary is kept at 20°C, while the upper plate is initially set at an arbitrary subzero temperature. After a steady state has been reached, the growth and decay of the ice-layer due to the oscillating cooling temperature is recorded. Again the one-dimensional analysis is found to be good enough to predict the dynamic response of the spatially-averaged interface position." @default.
• W289157332 created "2016-06-24" @default.
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• W289157332 date "2005-01-01" @default.
• W289157332 modified "2023-10-16" @default.
• W289157332 title "DYNAMIC SOLIDIFICATION IN A WATER-SATURATED POROUS MEDIUM COOLED FROM ABOVE" @default.
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• W289157332 doi "https://doi.org/10.1016/b978-008044490-1/50019-3" @default.
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