Abstract
This paper describes two projects requiring production of national floodplain maps for England and Wales – some 80,000 km of river. The novel solutions developed have brought together a national Digital Elevation Model (DEM), automatically-generated peak flow estimates at intervals along the watercourses and two alternative methods of calculating the outlines: normal depth calculation; and a purpose-built 2-dimensional raster-based floodplain model, JFLOW. The DEM was derived using Interferometric Synthetic Aperture Radar (IFSAR) techniques and has a vertical precision of ±0.5 m–1.0 m (RMSE) and a 5 m horizontal resolution. The flow estimates were derived by automating Flood Estimation Handbook (FEH) techniques. The normal depth calculations are applied at a number of discrete cross-sections with linear interpolation between to form a 3-dimensional water surface. This is overlain on the DEM to produce the flood outline. Careful manual checking is required at a number of stages. The JFLOW model is based on a discretised form of the 2-dimensional diffusive wave equation and directly simulates the flood outline in a series of overlapping short (1 km) reaches. Flood outlines from the overlapping reaches are merged to produce the overall flood envelope. The model has been written to work as a screen-saver, allowing distributed processing across all computers in an office and manual intervention is minimal. In simple valley situations both methods give similar results, but show differences in more complex areas. Each has advantages and disadvantages, but both have been shown to be a practicable solution to allow production of 160,000 km of flood outline in 12 months.
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References
K. E. Bradbrook S. N. Lane S. G. Waller P. Bates (2004) ArticleTitleTwo dimensional diffusion wave modelling of flood inundation using a simplified channel representation J. River Basin Manage 2 211–223
Coleman, D.: 2001, Radar Revolution: Revealing the Bald Earth, Earth Observat. Mag. November Issue, 30–33
G. H. Dury (1976) ArticleTitleDischarge prediction, present and former, from channel dimensions J. Hydrol. 30 219–245 Occurrence Handle10.1016/0022-1694(76)90102-5
DTLR: 2001. Planning Policy Guidance Note 25: Development and Flood Risk. (Now available from the Office of the Deputy Prime Minister at www.planning-odpm.gov.uk.)
M. S. Horritt P. D. Bates (2001) ArticleTitlePredicting floodplain inundation: raster-based modelling versus the finite element approach Hydrolog. Process 15 825–842 Occurrence Handle10.1002/hyp.188
D. W. Knight (1981) ArticleTitleBoundary shear stress in smooth and rough channels J. Hydraul Div. ASCE 107 839–851
Morris, D. G.: 2003, Automation and Appraisal of the FEH Statistical Procedures for Flood Frequency Estimation. Report to DEFRA. CEH, Wallingford, UK.
Morris, D. G. and Flavin, R. W.: 1990, A digital terrain, model for hydrology. Proceedings of the 4th International Symposium on Spatial Data Handling. Vol. 1, July 23–27, Zurich, 250–262
D. G. Morris R. W. Flavin (1996) IH Report No. 130: Flood Risk Map for England and Wales Institute of Hydrology Wallingford, UK
NERC (1975). Flood Studies Report (5 volumes). Natural Environment Research Council. Reprinted 1993 with Supplementary Reports and additional bibliography. Institute of Hydrology, Wallingford.
A. I. Robson D. W. Reed (1999) Flood Estimation Handbook, Volume 3: Statistical Procedures for Flood Frequency Estimation Institute of Hydrology Wallingford, UK
R. H. J. Sellin (1964) ArticleTitleA laboratory investigation into the interaction between the flow in the channel of the river and that over its floodplain La Houille Blanche 7 783–801
Waller, S. G.: Bradbrook, K. F.: Huband, M., Mitchell, G., and Gilkes, P.: 2003, The Extreme Flood Outline, Proceedings of the 38th DEFRA Flood & Coastal Management Conference, 07.2.1–07.2.11.
Wicks, J., Mocke, R., Bates, P., Ramsbottom, D., Evans, E., and Green, C.: 2003, Selection of Appropriate Methods for Flood Modelling, Proceedings of the 38th, DEFRA Flood & Coastal Management Conference, 09.2.1–09.2.8.
M. G. Wolman J. P. Miller (1960) ArticleTitleMagnitude and frequency of forces in geomorphic Processes J. Geolog. 68 54–74
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Bradbrook, K., Waller, S. & Morris, D. National Floodplain Mapping: Datasets and Methods – 160,000 km in 12 months. Nat Hazards 36, 103–123 (2005). https://doi.org/10.1007/s11069-004-4544-9
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DOI: https://doi.org/10.1007/s11069-004-4544-9