Experimental Investigation on Mean Flow Development of a Three-Dimensional Wall Jet Confined by a Vertical Baffle

Experimental Investigation on Mean Flow Development of a Three-Dimensional Wall Jet Confined by a Vertical Baffle

Three-dimensional (3D) confined wall jets have various engineering applications related to efficient energy dissipation. This paper presents experimental measurements of mean flow development for a 3D rectangular wall jet confined by a vertical baffle with a fixed distance (400 mm) from its surface...

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Main Authors: Ming Chen, Haijin Huang, Xingxing Zhang, Senpeng Lv, Rengmin Li
Format: Article
Language:English
Published: MDPI AG 2019-01-01
Series:Water
Subjects:
experiment
particle image velocimetry
3D confined wall jet
mean flow
Online Access:https://www.mdpi.com/2073-4441/11/2/237
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spelling doaj-4e15d1b78db34105b44cac312db0584c2020-11-25T00:27:20ZengMDPI AGWater2073-44412019-01-0111223710.3390/w11020237w11020237Experimental Investigation on Mean Flow Development of a Three-Dimensional Wall Jet Confined by a Vertical BaffleMing Chen0Haijin Huang1Xingxing Zhang2Senpeng Lv3Rengmin Li4Key Laboratory of Hydraulic and Waterway Engineering of the Ministry of Education, Chongqing Jiaotong University, Chongqing 400074, ChinaKey Laboratory of Hydraulic and Waterway Engineering of the Ministry of Education, Chongqing Jiaotong University, Chongqing 400074, ChinaKey Laboratory of Hydraulic and Waterway Engineering of the Ministry of Education, Chongqing Jiaotong University, Chongqing 400074, ChinaKey Laboratory of Hydraulic and Waterway Engineering of the Ministry of Education, Chongqing Jiaotong University, Chongqing 400074, ChinaKey Laboratory of Hydraulic and Waterway Engineering of the Ministry of Education, Chongqing Jiaotong University, Chongqing 400074, ChinaThree-dimensional (3D) confined wall jets have various engineering applications related to efficient energy dissipation. This paper presents experimental measurements of mean flow development for a 3D rectangular wall jet confined by a vertical baffle with a fixed distance (400 mm) from its surface to the nozzle. Experiments were performed at three different Reynolds numbers of 8333, 10,000 and 11,666 based on jet exit velocity and square root of jet exit area (named as <i>B</i>), with water depth of 100 mm. Detailed measurements of current jet were taken using a particle image velocimetry technique. The results indicate that the confined jet seems to behave like an undisturbed jet until 16<i>B</i> downstream. Beyond this position, however, the mean flow development starts to be gradually affected by the baffle confinement. The baffle increases the decay and spreading of the mean flow from 16<i>B</i> to 23<i>B</i>. The decay rate of 1.11 as well as vertical and lateral growth rates of 0.04 and 0.19, respectively, were obtained for the present study, and also fell well within the range of values which correspond to the results in the radial decay region for the unconfined case. In addition, the measurements of the velocity profiles, spreading rates and velocity decay were also found to be independent of Reynolds number. Therefore, the flow field in this region appears to have fully developed at least 4<i>B</i> earlier than the unconfined case. Further downstream (after 23<i>B</i>), the confinement becomes more pronounced. The vertical spreading of current jet shows a distinct increase, while the lateral growth was found to be decreased significantly. It can be also observed that the maximum mean velocity decreases sharply close to the baffle.https://www.mdpi.com/2073-4441/11/2/237experimentparticle image velocimetry3D confined wall jetmean flow
collection DOAJ
language English
format Article
sources DOAJ
author Ming Chen
Haijin Huang
Xingxing Zhang
Senpeng Lv
Rengmin Li
spellingShingle Ming Chen
Haijin Huang
Xingxing Zhang
Senpeng Lv
Rengmin Li
Experimental Investigation on Mean Flow Development of a Three-Dimensional Wall Jet Confined by a Vertical Baffle
Water
experiment
particle image velocimetry
3D confined wall jet
mean flow
author_facet Ming Chen
Haijin Huang
Xingxing Zhang
Senpeng Lv
Rengmin Li
author_sort Ming Chen
title Experimental Investigation on Mean Flow Development of a Three-Dimensional Wall Jet Confined by a Vertical Baffle
title_short Experimental Investigation on Mean Flow Development of a Three-Dimensional Wall Jet Confined by a Vertical Baffle
title_full Experimental Investigation on Mean Flow Development of a Three-Dimensional Wall Jet Confined by a Vertical Baffle
title_fullStr Experimental Investigation on Mean Flow Development of a Three-Dimensional Wall Jet Confined by a Vertical Baffle
title_full_unstemmed Experimental Investigation on Mean Flow Development of a Three-Dimensional Wall Jet Confined by a Vertical Baffle
title_sort experimental investigation on mean flow development of a three-dimensional wall jet confined by a vertical baffle
publisher MDPI AG
series Water
issn 2073-4441
publishDate 2019-01-01
description Three-dimensional (3D) confined wall jets have various engineering applications related to efficient energy dissipation. This paper presents experimental measurements of mean flow development for a 3D rectangular wall jet confined by a vertical baffle with a fixed distance (400 mm) from its surface to the nozzle. Experiments were performed at three different Reynolds numbers of 8333, 10,000 and 11,666 based on jet exit velocity and square root of jet exit area (named as <i>B</i>), with water depth of 100 mm. Detailed measurements of current jet were taken using a particle image velocimetry technique. The results indicate that the confined jet seems to behave like an undisturbed jet until 16<i>B</i> downstream. Beyond this position, however, the mean flow development starts to be gradually affected by the baffle confinement. The baffle increases the decay and spreading of the mean flow from 16<i>B</i> to 23<i>B</i>. The decay rate of 1.11 as well as vertical and lateral growth rates of 0.04 and 0.19, respectively, were obtained for the present study, and also fell well within the range of values which correspond to the results in the radial decay region for the unconfined case. In addition, the measurements of the velocity profiles, spreading rates and velocity decay were also found to be independent of Reynolds number. Therefore, the flow field in this region appears to have fully developed at least 4<i>B</i> earlier than the unconfined case. Further downstream (after 23<i>B</i>), the confinement becomes more pronounced. The vertical spreading of current jet shows a distinct increase, while the lateral growth was found to be decreased significantly. It can be also observed that the maximum mean velocity decreases sharply close to the baffle.
topic experiment
particle image velocimetry
3D confined wall jet
mean flow
url https://www.mdpi.com/2073-4441/11/2/237
work_keys_str_mv AT mingchen experimentalinvestigationonmeanflowdevelopmentofathreedimensionalwalljetconfinedbyaverticalbaffle
AT haijinhuang experimentalinvestigationonmeanflowdevelopmentofathreedimensionalwalljetconfinedbyaverticalbaffle
AT xingxingzhang experimentalinvestigationonmeanflowdevelopmentofathreedimensionalwalljetconfinedbyaverticalbaffle
AT senpenglv experimentalinvestigationonmeanflowdevelopmentofathreedimensionalwalljetconfinedbyaverticalbaffle
AT rengminli experimentalinvestigationonmeanflowdevelopmentofathreedimensionalwalljetconfinedbyaverticalbaffle
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