Hydraulic characteristics of turbulent circular jets under surface confinement: Fid-Bau Portal

Fachinformationsdienst BAUdigital

A platform for research: civil engineering, architecture and urbanism

Hydraulic characteristics of turbulent circular jets under surface confinement

Riyaz, F. / Ahmad, Z.

Experimental study is carried out to investigate the hydraulics of turbulent circular jet under surface confinement. The effect of surface confinement on the jet centerline velocity and axial velocity profiles under different surface confinements and jet exit velocities has been studied. The decay of jet centerline velocity is high under surface confinement compared to the free jet. The effect of surface confinement on the velocity profile in the vertical axis is negligible near the jet exit; however, it increases downstream of the jet exit. Flux entrainment increases linearly along the jet axis and decreases as surface confinement increases, while the kinetic energy decreases linearly along the jet axis and increases as surface confinement increases.

Access

Check availability in my library

Order at Subito €

Page navigation

Document information

Export, share and cite

Hydraulic characteristics of turbulent circular jets under surface confinement

Riyaz, F. / Ahmad, Z.

Experimental study is carried out to investigate the hydraulics of turbulent circular jet under surface confinement. The effect of surface confinement on the jet centerline velocity and axial velocity profiles under different surface confinements and jet exit velocities has been studied. The decay of jet centerline velocity is high under surface confinement compared to the free jet. The effect of surface confinement on the velocity profile in the vertical axis is negligible near the jet exit; however, it increases downstream of the jet exit. Flux entrainment increases linearly along the jet axis and decreases as surface confinement increases, while the kinetic energy decreases linearly along the jet axis and increases as surface confinement increases.

Hydraulic characteristics of turbulent circular jets under surface confinement

Riyaz, F. / Ahmad, Z.

Experimental study is carried out to investigate the hydraulics of turbulent circular jet under surface confinement. The effect of surface confinement on the jet centerline velocity and axial velocity profiles under different surface confinements and jet exit velocities has been studied. The decay of jet centerline velocity is high under surface confinement compared to the free jet. The effect of surface confinement on the velocity profile in the vertical axis is negligible near the jet exit; however, it increases downstream of the jet exit. Flux entrainment increases linearly along the jet axis and decreases as surface confinement increases, while the kinetic energy decreases linearly along the jet axis and increases as surface confinement increases.

Access

Check availability in my library

Order at Subito €

Page navigation

Document information

Export, share and cite

Document information

Title:

Hydraulic characteristics of turbulent circular jets under surface confinement

Contributors:

Riyaz, F. (author) / Ahmad, Z. (author)

Published in:

ISH Journal of Hydraulic Engineering ; 20 ; 222-229

Publication date:

2014-05-04

Size:

8 pages

ISSN:

0971-5010 , 2164-3040

DOI:

https://doi.org/10.1080/09715010.2013.876725

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

circular jet , fluid , flux , kinetic energy , surface confinement , turbulent jet

Similar titles

Discussion of “Hydraulic characteristics of turbulent circular jets under surface confinement”

Pani, B.S. | Taylor & Francis Verlag | 2015

Reply to the “Discussion by B.S. Pani on ‘Hydraulic characteristics of turbulent circular jets under surface confinement’ by F. Riyaz and Z. Ahmad (2014)”

Riyaz, F. / Ahmad, Z. | Taylor & Francis Verlag | 2015

Impinging Circular Turbulent Jets

Beltaos, Spyridon / Rajaratnam, Nallamuthu | ASCE | 2021

Erosion by Impinging Circular Turbulent Jets

Rajaratnam, Nallamuthu / Beltaos, Spyridon | ASCE | 2021

Erratum for “Impinging Circular Turbulent Jets”

ASCE | 2021