Abstract

Large eddy simulation of fully developed turbulent flow in a compound open channel was carried out using the Smagorinsky model. The Reynolds number based on hydraulic radius and cross sectional averaged velocity is 5300. The mechanism of secondary flow is discussed by evaluating terms in the momentum equations for mean secondary flow. To clarify the important role of pressure gradients in driving the secondary currents, pressure is decomposed into several components that account for the contributions of convection, external force, the Reynolds stresses, and the viscosity. It is found that not only the Reynolds stresses but also the pressure gradients induced by the normal and shear Reynolds stresses play a major role in generating secondary flow.

Full Text

Published Version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Numerical Analysis of Three-Dimensional Turbulent Structure in Compound Open Channel Flows Using Algebraic Reynolds Stress Model.
Hitoshi Sugiyama ... Tamaki Matsubara
TRANSACTIONS OF THE JAPAN SOCIETY OF MECHANICAL ENGINEERS Series B | VOL. 61
Hitoshi Sugiyama, et. al.Hitoshi Sugiyama ... Tamaki Matsubara
01 Jan 1995
An experimental study of coherent structures, secondary currents and surface boils and their interrelation in open-channel flow
-
01 Jan 2008
Large eddy simulation of turbulent flow in an asymmetric compound open channel
T.G Thomas ... J.J.R Williams
Journal of Hydraulic Research | VOL. 33
T.G Thomas, et. al.T.G Thomas ... J.J.R Williams
01 Jan 1995
Turbulent secondary flows in channels with no-slip and shear-free boundaries
Nikolay Nikitin
Journal of Fluid Mechanics | VOL. 917
Nikolay NikitinNikolay Nikitin
23 Apr 2021
View more papers

More From: PROCEEDINGS OF HYDRAULIC ENGINEERING

Paper Title
Journal
Date
Author
INVESTIGATION OF RESIDENTS' RECOGNITION ON FLOOD RISK USING LAND PRICE ANALYSIS
Masako Teramoto ... Ryosuke Nishizawa
PROCEEDINGS OF HYDRAULIC ENGINEERING | VOL. 52
Masako Teramoto, et. al.Masako Teramoto ... Ryosuke Nishizawa
01 Jan 2008
Mitigation Effects of Thermal Environment by Watering
Takuma Kato ... Tadashi Yamada
PROCEEDINGS OF HYDRAULIC ENGINEERING | VOL. 52
Takuma Kato, et. al.Takuma Kato ... Tadashi Yamada
01 Jan 2008
AN INTEGRATED APPROACH TO PREDICT OUTFLOW HYDROGRAPH DUE TO LANDSLIDE DAM FAILURE BY OVERTOPPING AND SLIDING
Ripendra Awal ... Hao Zhang
PROCEEDINGS OF HYDRAULIC ENGINEERING | VOL. 52
Ripendra Awal, et. al.Ripendra Awal ... Hao Zhang
01 Jan 2008
REPRODUCING OF SEDIMENTATION PROCESS IN RUN-OFF-RIVER HYDRO POWER PLANT CAUSED BY SEDIMENT RUNOFF FROM UPSTREAM CHANNEL BED
Yuichi Kouchi ... Kenji Okubo
PROCEEDINGS OF HYDRAULIC ENGINEERING | VOL. 52
Yuichi Kouchi, et. al.Yuichi Kouchi ... Kenji Okubo
01 Jan 2008
View more papers

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.