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WATER RESOURCES RESEARCH,
VOL. 26, NO. 8,
PAGES 1819–1832,
1990
Similarity and Length Scale for Spatially Varied Overland Flow
Pierre Y. Julien
Department of Civil Engineering, Colorado State University, Fort Collins
Glenn E. Moglen
Department of Civil Engineering, Colorado State University, Fort Collins
Abstract
One-dimensional finite element models enable physically based investigations of overland flow generated under spatially varied
surface slope, width, roughness, and excess rainfall intensity. Simulated results of 8400 dimensionless hydrographs under
spatially varied input parameters indicate that runoff discharge variations depend primarily on the ratio of rainfall duration
tr
to the time to equilibrium te
. Peak discharge distributions change drastically as the dimensionless rainfall duration tr/te
approaches unity. Similarity conditions exist for all four parameters regardless of whether the spatial variability is correlated
or uncorrelated. A length scale function of not only the spatially averaged values of surface parameters but also depending
on rainstorm duration and intensity delineates similarity conditions for spatially varied surface runoff. For surface runoff
lengths much shorter than this length scale, the rainfall-runoff relationship becomes nearly independent of the spatial variability
in hydrologic parameters. Conversely, for surface runoff lengths exceeding the length scale, the rainfall-runoff relationship
is sensitive to spatial variability. This length scale can serve as a basis for the determination of grid sizes in hydrologic
models.
Subscriber Access to Print Version (Nonsubscribers may purchase for $9.00) (1308904 bytes)
Citation: Julien, P. Y., and G. E. Moglen
(1990),
Similarity and Length Scale for Spatially Varied Overland Flow,
Water Resour. Res.,
26(8),
1819–1832.
Copyright 1990 by the American Geophysical Union.
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