Migration of Maximum Scour Location around Wide Setback Bridge Abutments in Floodplains
Journal of Irrigation and Drainage Engineering • 2021
Publication Information
Authors
Ahmed Abouelfetouh Abdelaziz; Siow Yong Lim
Keywords
Abutment aspect ratio; Wide abutment; Compound channel; Migration of maximum scour depth; Setback abutment
Journal
Journal of Irrigation and Drainage Engineering
Publisher
American Society of Civil Engineers
Volume
147
Issue
9
Pages
04021038
publication.type
International
Paper Link
Open Link
Supplementary Materials
Not Available
Abstract
Location of maximum scour depth is a key feature for the accurate design of scour countermeasures. Experimental results show
that the maximum scour depth around wide setback abutments migrates to a location further downstream than that observed conventionally at
the tip for narrower abutment. The wide abutment caused two scour holes to form, with a larger primary scour hole and a smaller secondary
scour hole downstream from the first, and this has important implications for scour protection at the structure’s foundation. For this study,
55 experiments were conducted with seven abutment aspect ratios and the migration of the maximum scour locations were measured. The
results reveal that Rx (the normal distance from abutment face to the location of maximum scour depth) is affected by the flow intensity, flow
depth, and abutment aspect ratio. The value of Rx is larger as flow intensity decreases for the same abutment aspect ratio. However, Ry
(the distance from the centerline of abutment face to the location of maximum scour depth parallel to flow direction) is only affected
by flow depth and abutment aspect ratio. Empirical equations are proposed to predict the locations of the maximum scour depth for wide
abutments in compound channels.
that the maximum scour depth around wide setback abutments migrates to a location further downstream than that observed conventionally at
the tip for narrower abutment. The wide abutment caused two scour holes to form, with a larger primary scour hole and a smaller secondary
scour hole downstream from the first, and this has important implications for scour protection at the structure’s foundation. For this study,
55 experiments were conducted with seven abutment aspect ratios and the migration of the maximum scour locations were measured. The
results reveal that Rx (the normal distance from abutment face to the location of maximum scour depth) is affected by the flow intensity, flow
depth, and abutment aspect ratio. The value of Rx is larger as flow intensity decreases for the same abutment aspect ratio. However, Ry
(the distance from the centerline of abutment face to the location of maximum scour depth parallel to flow direction) is only affected
by flow depth and abutment aspect ratio. Empirical equations are proposed to predict the locations of the maximum scour depth for wide
abutments in compound channels.
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