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Publication Date
Sat Nov 01 2025
Journal Name
Iop Conference Series: Earth And Environmental Science
Volume
1545
DOI
10.1088/1755-1315/1545/1/012115
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The effect of large-scale engineered roughness elements on the hydraulics of the Shatt al-Arab estuary: Methodology
Iman Alwan
Lariyah Mohd Sidek
Riyadh Z. Azzubaidi
Ali Omran Al‐Sulttani
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Abstract<p>Erosion and deposition are natural phenomena in the river estuaries that could be presented as a dynamic process involving removing materials from one location and accumulating these materials at other locations. These two phenomena may cause changes in waterways and affect offshore structures. The Shatt Al-Arab River Estuary, Iraq was greatly affected by these two phenomena, and topography changes occurred. Velocity profiles and bed shear stress can be used as indicators to identify the erosion and deposition locations. Large-scale roughness elements proved to make beneficial changes in the hydraulic properties of open channels. They can create desirable effects to control erosion and deposition and help to develop better flow management. Large-scale roughness elements could be used as large stones or blocks from concrete. The roughness elements’ configuration and location are parameters playing an essential role in changing the hydraulic characteristics of flowing water. Computational Fluid Dynamics, Computational Fluid Dynamics (CFD) Software has become an effective tool for studying estuarian hydrodynamics under various circumstances with comprehensive details. This software can simulate flowing water within the estuary to identify the best configuration and locations of the roughness elements. New data can be obtained by determining the best arrangement and location of roughness elements that help develop flow management and control deposition and erosion rather than conducting time-consuming and costly field or laboratory experiments. By using the roughness elements, it is possible to manipulate the direction of sediment transport and change the locations of erosion and deposition.</p>
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