The Inner Flow and Heat Transfer Analysis of Round Tube with Different Rotating Speed

Aiming at the inner flowing characteristics of round tube, the different transient cases of tube with rotating wall boundary are analyzed by CFD, and the six cases are determined according to the different rotating speed respectively. The fluid is water, with the same dimension of tubes, the negativ...

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Veröffentlicht in:	Applied mechanics and materials 2017-02, Vol.863, p.170-174
Hauptverfasser:	Liu, Wang, Song, Yu Chao, Gao, Hong Tao
Format:	Artikel
Sprache:	eng
Schlagworte:	Case depth High temperature Outflow Rotating fluids Temperature distribution Tubes
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description	Aiming at the inner flowing characteristics of round tube, the different transient cases of tube with rotating wall boundary are analyzed by CFD, and the six cases are determined according to the different rotating speed respectively. The fluid is water, with the same dimension of tubes, the negative pressure region moves forward in the tube as the increase of rotating speed, and the outflow velocity is high to 31.42 mm/s, being 348.22% more than that of steady case. When the rotating speed is 1 rev./s, there is a lowest temperature band between the wall and center high temperature flow. In the transient temperature analysis, the high temperature cloud changes to cone-like shape, and there is a swirl with lower temperature at the inlet part with a large depth into the tube center. The case with 2 rev./s has the much more uniform temperature distribution than others.
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The fluid is water, with the same dimension of tubes, the negative pressure region moves forward in the tube as the increase of rotating speed, and the outflow velocity is high to 31.42 mm/s, being 348.22% more than that of steady case. When the rotating speed is 1 rev./s, there is a lowest temperature band between the wall and center high temperature flow. In the transient temperature analysis, the high temperature cloud changes to cone-like shape, and there is a swirl with lower temperature at the inlet part with a large depth into the tube center. 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subjects	Case depth High temperature Outflow Rotating fluids Temperature distribution Tubes
title	The Inner Flow and Heat Transfer Analysis of Round Tube with Different Rotating Speed
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