TY - JOUR
T1 - Estimation of roughness lengths and flow separation over compound bedforms in a natural-tidal inlet
AU - Lefebvre, Alice
AU - Ernstsen, Verner B.
AU - Winter, Christian
N1 - Funding Information:
This study was funded through DFG-Research Center/ Cluster of Excellence “The Ocean in the Earth System” and the Danish Council for Independent Research | Natural Sciences (FNU) (Grant 272-06-0225 and Steno Grant 10-081102 ). The crew of FK Senckenberg and colleagues of the Bundesanstalt für Wasserbau are thanked for precious help and support during the field campaign. Thanks are extended to Marius Becker for helping with ADCP data processing. Alice Lefebvre is also appreciative of the support provided by Senckenberg am Meer.
PY - 2013/7/1
Y1 - 2013/7/1
N2 - The hydraulic effect of asymmetric compound bedforms on tidal currents was assessed from field measurements of flow velocity in the Knudedyb tidal inlet, Denmark. Large asymmetric bedforms with smaller superimposed ones are a common feature of sandy shallow water environments and are known to act as hydraulic roughness elements in dependence with flow direction. The presence of a flow separation zone on the bedform lee was estimated through analysis of the measured velocity directions and the calculation of the flow separation line. The Law of the Wall was used to calculate roughness lengths and shear velocities from log-linear segments sought on transect-averaged and single-location velocity profiles. During the ebb tide a permanent flow separation zone was established over the steep (10-20°) lee sides of the ebb-oriented primary bedforms, which generated a consequent drag on the flow. During the flood, no flow separation was induced by the gentle (2°) lee side of the primary bedforms except over the steepest (10°) part of the lee side where a small separation zone was sometimes observed. As a result, hydraulic roughness was only due to the superimposed bedforms. The parameterized flow separation line was found to underestimate the length of the flow separation zone of the primary bedforms. A better estimation of the presence and shape of the flow separation zone over complex bedforms in a tidal environment still needs to be determined; in particular the relationship between flow separation zone and bedform geometry (asymmetry, relative height or slope of the lee side) is unclear. This would improve the prediction of complex bedform roughness in tidal flows.
AB - The hydraulic effect of asymmetric compound bedforms on tidal currents was assessed from field measurements of flow velocity in the Knudedyb tidal inlet, Denmark. Large asymmetric bedforms with smaller superimposed ones are a common feature of sandy shallow water environments and are known to act as hydraulic roughness elements in dependence with flow direction. The presence of a flow separation zone on the bedform lee was estimated through analysis of the measured velocity directions and the calculation of the flow separation line. The Law of the Wall was used to calculate roughness lengths and shear velocities from log-linear segments sought on transect-averaged and single-location velocity profiles. During the ebb tide a permanent flow separation zone was established over the steep (10-20°) lee sides of the ebb-oriented primary bedforms, which generated a consequent drag on the flow. During the flood, no flow separation was induced by the gentle (2°) lee side of the primary bedforms except over the steepest (10°) part of the lee side where a small separation zone was sometimes observed. As a result, hydraulic roughness was only due to the superimposed bedforms. The parameterized flow separation line was found to underestimate the length of the flow separation zone of the primary bedforms. A better estimation of the presence and shape of the flow separation zone over complex bedforms in a tidal environment still needs to be determined; in particular the relationship between flow separation zone and bedform geometry (asymmetry, relative height or slope of the lee side) is unclear. This would improve the prediction of complex bedform roughness in tidal flows.
KW - Flow separation zone
KW - Knudedyb tidal inlet
KW - Roughness length
KW - Velocity profile
UR - http://www.scopus.com/inward/record.url?scp=84878351708&partnerID=8YFLogxK
U2 - 10.1016/j.csr.2013.04.030
DO - 10.1016/j.csr.2013.04.030
M3 - Article
AN - SCOPUS:84878351708
SN - 0278-4343
VL - 61-62
SP - 98
EP - 111
JO - Continental Shelf Research
JF - Continental Shelf Research
ER -