The hydrodynamics of a recirculating (O-tube) flume
The hydrodynamics of a recirculating (O-tube) flume
An O-tube flume is a horizontal closed-circuit flume that can be driven by an inline impeller-type pump to produce steady and/or oscillatory flow over a mobile seabed. An O-tube has the ability to reproduce large combined wave and current conditions near the seabed, typical of (cyclonic) storm conditions. In this paper, we investigate the hydrodynamics of an O-tube and show applications of this technology. First, we derive a dynamic equation to explain the coupling between pressure and flow ratewithin the O-tube. This result can be thought of as an extension of the classical hydrodynamic equations developed for U-tubes and allows for improved control of the flow within the O-tube by providing a prediction of the non-linear interaction between steady flow (i.e. currents) and unsteady flow (i.e. waves). We demonstrate this improved control by comparing measurements of flow rate taken from an O-tube with the dynamic equation. Secondly, we present velocity measurements to give a detailed description of the flow field within the O-tube, including mean flow profiles and seabed shear stress. Finally, we conclude the paper by providing two example applications of the facility to study sediment transport and scour.
999-1010
Mohr, H.
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Draper, S.
0f43dd70-abdf-4ba3-a9e0-6b4ba932b61e
White, D.J.
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Cheng, L.
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An, H.
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Zhang, Q.
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2016
Mohr, H.
2afb09e1-17c7-4875-ac8a-cd15850c1e91
Draper, S.
0f43dd70-abdf-4ba3-a9e0-6b4ba932b61e
White, D.J.
a986033d-d26d-4419-a3f3-20dc54efce93
Cheng, L.
10b371d2-359d-45f5-93c7-300c78b5f40c
An, H.
7268aa4f-4ba9-497c-bd05-cfe591093a05
Zhang, Q.
6fd5a9b1-2ff3-43ed-9177-b182dc263819
Mohr, H., Draper, S., White, D.J., Cheng, L., An, H. and Zhang, Q.
(2016)
The hydrodynamics of a recirculating (O-tube) flume.
In Scour and Erosion: Proceedings of the 8th International Conference on Scour and Erosion (ICSE 2016).
CRC Press / Balkema.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
An O-tube flume is a horizontal closed-circuit flume that can be driven by an inline impeller-type pump to produce steady and/or oscillatory flow over a mobile seabed. An O-tube has the ability to reproduce large combined wave and current conditions near the seabed, typical of (cyclonic) storm conditions. In this paper, we investigate the hydrodynamics of an O-tube and show applications of this technology. First, we derive a dynamic equation to explain the coupling between pressure and flow ratewithin the O-tube. This result can be thought of as an extension of the classical hydrodynamic equations developed for U-tubes and allows for improved control of the flow within the O-tube by providing a prediction of the non-linear interaction between steady flow (i.e. currents) and unsteady flow (i.e. waves). We demonstrate this improved control by comparing measurements of flow rate taken from an O-tube with the dynamic equation. Secondly, we present velocity measurements to give a detailed description of the flow field within the O-tube, including mean flow profiles and seabed shear stress. Finally, we conclude the paper by providing two example applications of the facility to study sediment transport and scour.
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Published date: 2016
Venue - Dates:
8th International Conference on Scour and Erosion, ICSE 2016, , Oxford, United Kingdom, 2016-09-12 - 2016-09-15
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Local EPrints ID: 420510
URI: http://eprints.soton.ac.uk/id/eprint/420510
PURE UUID: 9e01ea4d-978d-4d3e-bd71-0b3889f95352
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Date deposited: 09 May 2018 16:30
Last modified: 18 Mar 2024 03:42
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Contributors
Author:
H. Mohr
Author:
S. Draper
Author:
L. Cheng
Author:
H. An
Author:
Q. Zhang
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