Effects of contraction ratio on loss reduction of the flow in the reducing elbow duct with a weir-shaped obstacle

90-degree elbow pipe/duct is one of the piping element which is used frequently in industrial apparatus. The separated flow which occurs at inner corner of elbow part and the secondary flow which occurs at the elbow and its downstream cause significant pressure loss especially in the case of reducin...

Full description

Saved in:
Bibliographic Details
Published in:Journal of fluid science and technology 2023-01, Vol.18 (1), p.JFST0010-JFST0010, Article 2023jfst0010
Main Authors: ANDO, Toshitake, SHAKOUCHI, Toshihiko, HANAI, Atsushi, HAYASHI, Nobuyuki, FUKUTA, Yohei, TSUJIMOTO, Koichi, TAKAHASHI, Mamoru
Format: Article
Language:English
Subjects:
90-degree elbow duct
Barriers
Flow resistance
Flow separation
Flow visualization
Guide vanes
Loss reduction
Machining
Pipe bends
Pressure loss
Pressure measurement
Secondary flow
separation control
Weirs
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:90-degree elbow pipe/duct is one of the piping element which is used frequently in industrial apparatus. The separated flow which occurs at inner corner of elbow part and the secondary flow which occurs at the elbow and its downstream cause significant pressure loss especially in the case of reducing elbow. Generally the inner corner is rounded or guide vane is mounted near the corner in order to reduce the losses by controlling this separation and secondary flow, however, the authors newly propose the mounting weir-shaped obstacles on the inner wall upstream of the corner. This method is easier to introduce to the duct/pipe which has a sharp edged inner corner, because machining the corner is not needed and the shape of the object mounted is simpler than guide vane. In this study, in order to reduce the pressure loss of reducing elbow ducts by installing weir-shaped obstacle and to investigate the effect of the cross-sectional reduction ratio on the loss reduction by the obstacle, pressure measurement and flow visualization using water were carried out. Experiments by varying the position (distance from the corner) and height of the obstacle made clear that the obstacle conditions which makes the flow resistance of reducing elbow duct smaller and the loss is reduced by about 30 – 60%.
ISSN:1880-5558
1880-5558
DOI:10.1299/jfst.2023jfst0010