Experimental Investigation on Flow and Scour Characteristics Around Tandem Piers in Sandy Channel With Downward Seepage

Experimental investigations have been carried out to study morpho-hydraulic characteristics such as scour geometry and turbulent flow properties around tandem piers in alluvial channels. Experiments were carried out in a plane sand bed with two circular piers of same diameter arranged in tandem mann...

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Bibliographic Details
Published inJournal of marine science and application Vol. 16; no. 3; pp. 313 - 322
Main Authors Chavan, Rutuja, Kumar, Bimlesh
Format Journal Article
LanguageEnglish
Published Harbin Harbin Engineering University 01.09.2017
Springer Nature B.V
Department of Civil Engineering, Indian Institute of Technology, Guwahati-781039, India
Subjects
Alluvial channels
Downstream
Electrical Machines and Networks
Engineering
Fluid dynamics
Fluid flow
Forces (mechanics)
Geotechnical Engineering & Applied Earth Sciences
Kinetic energy
Machinery and Machine Elements
Offshore Engineering
Piers
Power Electronics
Scour
Scouring
Sedimentation
Seepage
Shear stress
Strouhal number
Turbulence
Turbulent flow
Upstream
Velocity
moments
experimental investigation
piers
Strouhal number
tandem arrangement
turbulent kinetic energy
downward seepage
scour
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Summary:Experimental investigations have been carried out to study morpho-hydraulic characteristics such as scour geometry and turbulent flow properties around tandem piers in alluvial channels. Experiments were carried out in a plane sand bed with two circular piers of same diameter arranged in tandem manner under no seepage, 10% seepage and 20% seepage conditions. Downward seepage minimizes the scour depth around piers and restrains the development of scour depth with time. Strong reversal flow is found near the bed at upstream of piers and near free surface at downstream of piers where velocity and Reynolds shear stress are found to be negative which reduce in magnitude with downward seepage. The flow is more critical within the gap between two piers where velocity is lesser near free surface and gradually increasing towards bed. Quadrant analysis shows that contribution of each event to the total Reynolds shear stress increases with downward seepage. Sedimentation effect prevails within the scour hole whereas outside the scour hole erosive forces become more dominant. Reduced reversal flow at upstream of pier because of downward seepage results in decreasing higher order moments and turbulent kinetic energy. At downstream of piers, secondary currents are dominant due to wake vortices. Strouhal number decreases in case of seepage runs than no seepage condition.
Bibliography:Rutuja Chavan;Bimlesh Kumar
Experimental investigations have been carried out to study morpho-hydraulic characteristics such as scour geometry and turbulent flow properties around tandem piers in alluvial channels. Experiments were carried out in a plane sand bed with two circular piers of same diameter arranged in tandem manner under no seepage, 10% seepage and 20% seepage conditions. Downward seepage minimizes the scour depth around piers and restrains the development of scour depth with time. Strong reversal flow is found near the bed at upstream of piers and near free surface at downstream of piers where velocity and Reynolds shear stress are found to be negative which reduce in magnitude with downward seepage. The flow is more critical within the gap between two piers where velocity is lesser near free surface and gradually increasing towards bed. Quadrant analysis shows that contribution of each event to the total Reynolds shear stress increases with downward seepage. Sedimentation effect prevails within the scour hole whereas outside the scour hole erosive forces become more dominant. Reduced reversal flow at upstream of pier because of downward seepage results in decreasing higher order moments and turbulent kinetic energy. At downstream of piers, secondary currents are dominant due to wake vortices. Strouhal number decreases in case of seepage runs than no seepage condition.
23-1505/T
piers;experimental investigation;downward seepage;moments;scour;Strouhal number;tandem arrangement;turbulent kinetic energy
ISSN:1671-9433
1993-5048
DOI:10.1007/s11804-017-1426-6