Hydraulic model calibration for extreme floods in bedrock-confined channels: case study from Northern Thailand
Hydraulic model calibration for extreme floods in bedrock-confined channels: case study from Northern Thailand
The majority of the huge annual sediment load of the Yellow River in China is transported by a few hyperconcentrated sediment laden floods. Being hyperconcentrated, these floods are still so "starved" as to entrain enormous volumes of sediment from the bed, triggering quick and extensive bed-tearing scour. In the recession period of the floods, river blockage might occur as characterized by an abrupt halt of the flow. The physics of these fluvial processes has remained unclear for several decades. Previous hydrodynamic models were built upon simplified conservation laws and are applicable only for processes with weak sediment transport. A complete shallow water hydrodynamic model is deployed here to reveal new insights into the phenomena. A self-amplifying mechanism of the interaction between the flow and bed scour is identified, which explains how bed-tearing scour occurs. River blockage is ascribable to the longitudinally positive pressure gradient due to a non-uniform distribution of sediment concentration. The spatial and temporal development of the system of flow, sediment transport and morphology is far more complicated than represented by previous models that have evolved from fixed-bed, single-phase hydrodynamics or involved a capacity description of sediment transport. The present approach may facilitate a better understanding of active sediment transport by flash floods in ephemeral desert rivers and by subaqueous turbidity currents.
sediment transport, sediment-laden flow, erosion and sedimentation, floods, unsteady flow, hyperconcentrated flow, alluvial rivers, The Yellow River, fluvial morphology, shallow water hydrodynamics
329-344
Kidson, R.
60d052dc-2b77-44f8-9700-93f71f3f80d4
Richards, K.S.
1a597945-c535-4296-88f4-d36d241ad7cb
Carling, P.A.
8d252dd9-3c88-4803-81cc-c2ec4c6fa687
2006
Kidson, R.
60d052dc-2b77-44f8-9700-93f71f3f80d4
Richards, K.S.
1a597945-c535-4296-88f4-d36d241ad7cb
Carling, P.A.
8d252dd9-3c88-4803-81cc-c2ec4c6fa687
Kidson, R., Richards, K.S. and Carling, P.A.
(2006)
Hydraulic model calibration for extreme floods in bedrock-confined channels: case study from Northern Thailand.
Hydrological Processes, 20 (2), .
(doi:10.1002/hyp.6086).
Abstract
The majority of the huge annual sediment load of the Yellow River in China is transported by a few hyperconcentrated sediment laden floods. Being hyperconcentrated, these floods are still so "starved" as to entrain enormous volumes of sediment from the bed, triggering quick and extensive bed-tearing scour. In the recession period of the floods, river blockage might occur as characterized by an abrupt halt of the flow. The physics of these fluvial processes has remained unclear for several decades. Previous hydrodynamic models were built upon simplified conservation laws and are applicable only for processes with weak sediment transport. A complete shallow water hydrodynamic model is deployed here to reveal new insights into the phenomena. A self-amplifying mechanism of the interaction between the flow and bed scour is identified, which explains how bed-tearing scour occurs. River blockage is ascribable to the longitudinally positive pressure gradient due to a non-uniform distribution of sediment concentration. The spatial and temporal development of the system of flow, sediment transport and morphology is far more complicated than represented by previous models that have evolved from fixed-bed, single-phase hydrodynamics or involved a capacity description of sediment transport. The present approach may facilitate a better understanding of active sediment transport by flash floods in ephemeral desert rivers and by subaqueous turbidity currents.
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Published date: 2006
Keywords:
sediment transport, sediment-laden flow, erosion and sedimentation, floods, unsteady flow, hyperconcentrated flow, alluvial rivers, The Yellow River, fluvial morphology, shallow water hydrodynamics
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Local EPrints ID: 58068
URI: http://eprints.soton.ac.uk/id/eprint/58068
ISSN: 1099-1085
PURE UUID: be31f3e2-483f-4ea7-981a-348bfd28325a
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Date deposited: 11 Aug 2008
Last modified: 15 Mar 2024 11:09
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Author:
R. Kidson
Author:
K.S. Richards
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