Title |
The influence of boiling on the streamlined body drag force and falling velocity / |
Authors |
Paukštaitis, Linas ; Kilikevičius, Sigitas ; Česnavičius, Ramūnas ; Liutkauskienė, Kristina ; Ždankus, Tadas |
DOI |
10.3390/app11041562 |
Full Text |
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Is Part of |
Applied sciences.. Basel : MDPI. 2021, vol. 11, iss. 4, art. no. 1562, p. 1-11.. ISSN 2076-3417 |
Keywords [eng] |
drag force ; falling velocity ; numerical simulation ; cooling process ; turbulence model ; homogenous heat transfer model |
Abstract [eng] |
This article presents the results of numerical investigation of the influence of the streamlined body temperature on drag force and on the falling velocity in a water channel. The experimental data reflecting the cooling dynamics and body temperature influence on the falling velocity are presented as well. k − ε turbulence model and homogenous heat transfer model were chosen for the numerical 3D simulation. Drag force changes induced by the alteration of the body temperature were investigated. Velocity of the streamlined body under different temperatures of water was investigated experimentally, and the results were compared to the data obtained during the numerical simulation. The increase of the falling velocity and decrease of drag force were found to have been affected by the increase of the body temperature, which had influence on the change of the water parameters (density, phase, etc.) near the surface of the body. Simulation showed that the drag force and a velocity also depended on the water temperature. The drag force of the streamlined body decreased by 32% in comparison to the cold body for the body temperature equal to 150 °C and water temperature close to the saturation temperature (98 °C). Experimentally, it was determined that the velocity of the streamlined body covered by vapor film depended on the falling time and increased by 10–30%. Velocity difference was very small for the cold and hot bodies at the initial moment of the drop; however, it reached 20% and more after 0.3 s of the falling process. |
Published |
Basel : MDPI |
Type |
Journal article |
Language |
English |
Publication date |
2021 |
CC license |
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