Similarity in Catchment Response: 2. Moving Rainstorms
Autor: | Fred L. Ogden, Jerry R. Richardson, Pierre Y. Julien |
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Rok vydání: | 1995 |
Předmět: |
geography
Watershed geography.geographical_feature_category Meteorology Plane (geometry) Drainage basin Storm Soil science Kinematics Physics::Geophysics Similarity (network science) Physics::Space Physics Surface runoff Physics::Atmospheric and Oceanic Physics Geology Water Science and Technology Dimensionless quantity |
Zdroj: | Water Resources Research. 31:1543-1547 |
ISSN: | 0043-1397 |
DOI: | 10.1029/95wr00519 |
Popis: | The influence of storm motion on runoff is explored, with a focus on dimensionless hydrologic similarity parameters. One- and two-dimensional physically based runoff models are subjected to moving rainstorms. A dimensionless storm speed parameterUte/Lp, where U is the storm speed, te is the runoff plane kinematic time to equilibrium, and Lp is the length of the runoff plane, is identified as a similarity condition. Storm motion effects on the peak discharge are greatest when the storm is traversing a one-dimensional runoff plane in the downslope direction at a dimensionless speed of Ute/Lp = 0.5. This conclusion holds for all values of the dimensionless storm sizes Ls/Lp where Ls is the length of the storm in the direction of motion. Simulations with a two-dimensional rainfall-runoff model confirm the applicability of this similarity parameter on natural watershed topography. Results indicate that the detailed simulation of storm motion is necessary when the storm is moving near the velocity of maximum effect, which is considerably slower than typical storm velocities. |
Databáze: | OpenAIRE |
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