Transient Heat Transfer Characteristics of Round Jet Impacting on Inclined Concave Cylindrical Surface Based on Thermochromic Liquid Crystal

The transient heat transfer characteristics of a single circular hole jet impacting concave cylinder were obtained by thermochromic liquid crystal. In the study, the airflow Reynolds number Re, the impact distance to nozzle diameter ratio L/d and the jet impact angle α were changed. The color change...

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Bibliographic Details
Published in:IET Conference Proceedings
Main Authors: Ming-yang, Liu, Shi-nan, Chang
Format: Conference Proceeding
Language:English
Published: Stevenage The Institution of Engineering & Technology 19.06.2018
Subjects:
Aerodynamics
Air flow
Fluid flow
Jet impingement
Linear analysis
Liquid crystals
Nozzles
Nusselt number
Reynolds number
Stagnation point
Transient heat transfer
ISBN:9781785617911, 1785617915
Online Access:Get full text
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Summary:The transient heat transfer characteristics of a single circular hole jet impacting concave cylinder were obtained by thermochromic liquid crystal. In the study, the airflow Reynolds number Re, the impact distance to nozzle diameter ratio L/d and the jet impact angle α were changed. The color change process of the concave surface of the experimental part was photographed by the industrial camera. The local Nusselt number NuD distribution was calculated. The results show that the distribution of NuD for the initial phase of the jet impingement is bell type in a radial direction along the impact center. And with the impact process, the Nusselt number at the stagnation point Nus decreases gradually, where the maximum difference is 26.9%. When Re increases and L/d close to 4, the second peak is gradually obvious. As α increases, the second peak moves to the region of r / d ⩽ O gradually. In addition, the linear relationship between the Re, L/d, α and Nus is obtained by linear analysis.
Bibliography:ObjectType-Conference Proceeding-1
SourceType-Conference Papers & Proceedings-1
content type line 21
ISBN:9781785617911
1785617915
DOI:10.1049/cp.2018.0295