Channel-Bed Scour with High versus Low Deflectors
Publication: Journal of Hydraulic Engineering
Volume 128, Issue 6
Abstract
Deflectors are recognized as one of the best devices for enhancing deep-water habitat in low-gradient channels. Modern design standards recommended the use of low-profile structures intended to function primarily at a lower stage, but research suggests that pools are typically formed by larger magnitude flows. A flume experiment was conducted in a 0.5-m wide, 6-m long recirculating flume to determine the volume of pool habitat and maximum depth of scour created by low versus high deflectors. Although the high deflectors were 1/3 the width of low deflectors, they created larger volume pools for all flows above bankfull levels. Pools were also as deep or deeper for high deflectors under the larger-flow conditions. Existing deflectors along the Blackledge River, Conn. support these two observations. Conversely, low deflectors produced deeper larger pools for discharges below bankfull levels. These results suggest that high deflectors may be better suited for creating pool habitat, especially in coarse-bedded channels.
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References
Brunner, G. W. (1995). HEC-RAS river analysis system: Version 1.0 user manual, U.S. Army Corps of Engineers, Davis, Calif.
Hunter, C. J. (1991). Better trout habitat, Island, Washington, D.C.
Lisle, T. E. (1987). “Using ‘residual depths’ to monitor pool depths independently of discharge.” Forest Service Research Note, PSW-394.
Miller, A. J.(1994). “Debris-fan constrictions and flood hydraulics in river canyons: Some implications from two-dimensional flow modeling.” Earth Surf. Processes Landforms, 9, 681–697.
Riggs, H. C. (1968). “Frequency curves.” Techniques of water-resources investigations of the United States Geological Survey, Book 4, 1–15.
Rosgen, D., and Silvey, H. L. (1996). Applied river morphology, Wildland Hydrology, Pagosa Springs, Colo.
Thompson, D. M., Nelson, J. M., and Wohl, E. E.(1998). “Interactions between pool geometry and hydraulics.” Water Resour. Res., 34(12), 3673–3681.
Thompson, D. M., Wohl, E. E., and Jarrett, R. D.(1999). “Pool sediment sorting processes and the velocity-reversal hypothesis.” Geomorphology, 17(3-4), 142–156.
Thorne, C. R., Hey, H. D., and Newson, M. D. (1997). Applied fluvial geomorphology for river engineering and management, Wiley, New York.
Williams, G. P.(1978). “Bank-full discharge of rivers.” Water Resour. Res., 14(6), 1141–1154.
Information & Authors
Information
Published In
Journal of Hydraulic Engineering
Volume 128 • Issue 6 • June 2002
Pages: 640 - 643
Copyright
Copyright © 2002 American Society of Civil Engineers.
History
Received: Apr 10, 2001
Accepted: Dec 27, 2001
Published online: May 15, 2002
Published in print: Jun 2002
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