Variation of flow separation over large bedforms during a tidal cycle

A. Lefebvre; Y. Ferret; A.J. Paarlberg; Verner Brandbyge Ernstsen; C. Winter

Variation of flow separation over large bedforms during a tidal cycle

A. Lefebvre, Y. Ferret, A.J. Paarlberg, Verner Brandbyge Ernstsen, C. Winter

Geography

Abstract

This study characterizes the shape of the flow separation zone over natural compound bedforms during a tidal cycle and investigates how the flow separation zone depends on changing flow conditions, water levels and bathymetry. Field data collected during a full tidal cycle over large ebb-oriented bedforms provides high-resolution bathymetry and velocity measurements that are used to simulate the hydrodynamics structure during a tidal cycle using the Delft3D numerical model.
During the ebb, a large flow separation zone occurs on the steep lee side (14 to 23°) of each bedform. During the flood, no flow separation developed over the gentle slope of the flood lee side (3 to 5° on average). However, a small flow separation zone is often recognized near the crest, where the slope is locally up to 15°. The shape of the FSZ is not influenced by changes in current velocities or water levels. On the contrary, it is largely influenced by changes in the bed morphology. In particular, variations in the shape of the crest during the tidal cycle results in variations of the length of the FSZ.

Original language	English
Title of host publication	Marine and River Dune Dynamics – MARID IV
Editors	Vera Van Lancker, Thierry Garlan
Number of pages	7
Publisher	Flanders Marine Institute (VLIZ)
Publication date	2013
Pages	169-175
ISBN (Electronic)	978-2-11-128352-7
Publication status	Published - 2013
Event	Marine & River Dune Dynamics - Royal Belgian Institute of Natural Sciences and SHOM, Bruges, Belgium Duration: 15 Apr 2013 → 16 Apr 2013 Conference number: 4

Conference

Conference	Marine & River Dune Dynamics
Number	4
Location	Royal Belgian Institute of Natural Sciences and SHOM
Country/Territory	Belgium
City	Bruges
Period	15/04/2013 → 16/04/2013

Series	VLIZ Special Publication
Volume	65

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Variation of flow separation over large bedforms during a tidal cycle. / Lefebvre, A.; Ferret, Y.; Paarlberg, A.J. et al.

Marine and River Dune Dynamics – MARID IV. ed. / Vera Van Lancker; Thierry Garlan. Flanders Marine Institute (VLIZ), 2013. p. 169-175 (VLIZ Special Publication, Vol. 65).

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title = "Variation of flow separation over large bedforms during a tidal cycle",

abstract = "This study characterizes the shape of the flow separation zone over natural compound bedforms during a tidal cycle and investigates how the flow separation zone depends on changing flow conditions, water levels and bathymetry. Field data collected during a full tidal cycle over large ebb-oriented bedforms provides high-resolution bathymetry and velocity measurements that are used to simulate the hydrodynamics structure during a tidal cycle using the Delft3D numerical model.During the ebb, a large flow separation zone occurs on the steep lee side (14 to 23°) of each bedform. During the flood, no flow separation developed over the gentle slope of the flood lee side (3 to 5° on average). However, a small flow separation zone is often recognized near the crest, where the slope is locally up to 15°. The shape of the FSZ is not influenced by changes in current velocities or water levels. On the contrary, it is largely influenced by changes in the bed morphology. In particular, variations in the shape of the crest during the tidal cycle results in variations of the length of the FSZ.",

author = "A. Lefebvre and Y. Ferret and A.J. Paarlberg and Ernstsen, {Verner Brandbyge} and C. Winter",

year = "2013",

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pages = "169--175",

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AU - Lefebvre, A.

AU - Ferret, Y.

AU - Paarlberg, A.J.

AU - Ernstsen, Verner Brandbyge

AU - Winter, C.

N1 - Conference code: 4

PY - 2013

Y1 - 2013

N2 - This study characterizes the shape of the flow separation zone over natural compound bedforms during a tidal cycle and investigates how the flow separation zone depends on changing flow conditions, water levels and bathymetry. Field data collected during a full tidal cycle over large ebb-oriented bedforms provides high-resolution bathymetry and velocity measurements that are used to simulate the hydrodynamics structure during a tidal cycle using the Delft3D numerical model.During the ebb, a large flow separation zone occurs on the steep lee side (14 to 23°) of each bedform. During the flood, no flow separation developed over the gentle slope of the flood lee side (3 to 5° on average). However, a small flow separation zone is often recognized near the crest, where the slope is locally up to 15°. The shape of the FSZ is not influenced by changes in current velocities or water levels. On the contrary, it is largely influenced by changes in the bed morphology. In particular, variations in the shape of the crest during the tidal cycle results in variations of the length of the FSZ.

AB - This study characterizes the shape of the flow separation zone over natural compound bedforms during a tidal cycle and investigates how the flow separation zone depends on changing flow conditions, water levels and bathymetry. Field data collected during a full tidal cycle over large ebb-oriented bedforms provides high-resolution bathymetry and velocity measurements that are used to simulate the hydrodynamics structure during a tidal cycle using the Delft3D numerical model.During the ebb, a large flow separation zone occurs on the steep lee side (14 to 23°) of each bedform. During the flood, no flow separation developed over the gentle slope of the flood lee side (3 to 5° on average). However, a small flow separation zone is often recognized near the crest, where the slope is locally up to 15°. The shape of the FSZ is not influenced by changes in current velocities or water levels. On the contrary, it is largely influenced by changes in the bed morphology. In particular, variations in the shape of the crest during the tidal cycle results in variations of the length of the FSZ.

M3 - Article in proceedings

T3 - VLIZ Special Publication

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EP - 175

BT - Marine and River Dune Dynamics – MARID IV

A2 - Van Lancker, Vera

A2 - Garlan, Thierry

PB - Flanders Marine Institute (VLIZ)

T2 - Marine & River Dune Dynamics

Y2 - 15 April 2013 through 16 April 2013

ER -

Variation of flow separation over large bedforms during a tidal cycle

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