| Assessment of equilibrium pressure-flow scour depth using jet flow theory |
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| 作者姓名: | Mostafa Koushki Mohammad R.Chamani Mohammad N.Moghim |
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| 作者单位: | Department of Civil Engineering, Isfahan University of Technology |
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| 摘 要: | Most models for predicting pressure-flow scour depth are based on use of the continuity and energy equations. The current study presents a model to predict pressure-flow scour depth using the momentum equation considering the jet flow deflected by the bridge deck. When approaching the bridge deck, the upstream flow acts as a jet flow that deviates toward the bed. Below the bridge deck, a combined jet-flow is created as a result of merging the initial jet-flow and the pressure-flow. The continuit...
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| 收稿时间: | 9 May 2022 |
Assessment of equilibrium pressure-flow scour depth using jet flow theory |
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| Mostafa Koushki,Mohammad R.Chamani,Mohammad N.Moghim.Assessment of equilibrium pressure-flow scour depth using jet flow theory[J].International Journal of Sediment Research,2023,38(1):141-151. |
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| Institution: | Department of Civil Engineering, Isfahan University of Technology, Isfahan, 8415683111, Iran |
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| Abstract: | Most models for predicting pressure-flow scour depth are based on use of the continuity and energy equations. The current study presents a model to predict pressure-flow scour depth using the momentum equation considering the jet flow deflected by the bridge deck. When approaching the bridge deck, the upstream flow acts as a jet flow that deviates toward the bed. Below the bridge deck, a combined jet-flow is created as a result of merging the initial jet-flow and the pressure-flow. The continuity equation is used to determine the thickness of the separation zone and the combined jet-flow angle. Equations are presented to estimate the combined jet-flow velocity and the thickness of the combined jet-flow. The study results reveal that the flow intensity, submergence ratio, and relative separation zone thickness are the principal parameters affecting the pressure-flow scour depth. The equation proposed in this study shows satisfactory accuracy to predict the equilibrium pressure-flow scour depth for a relative opening height of the bridge deck greater than 0.25. For relative opening heights of the bridge deck less than 0.25, insufficient duration of tests is a limitation of the available data to verify the proposed equation. |
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| Keywords: | Scour Pressure-flow Separation zone Jet-flow Momentum equation Bridge deck |
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