Search results for "time of concentration"

showing 4 items of 4 documents

Analytical solution of kinematic wave time of concentration for overland flow under green-ampt infiltration

2015

In this paper the well-known kinematic wave equation for computing the time of concentration for impervious surfaces has been extended to the case of pervious hillslopes, accounting for infiltration. An analytical solution for the time of concentration for overland flow on a rectangular plane surface is derived using the kinematic wave equation under the Green-Ampt infiltration. The relative time of concentration is defined as the ratio between the time of concentration of an infiltrating plane and the soil sorptivity time scale, depending on the normalized rainfall intensity and a parameter synthesizing the soil and hillslope characteristics. It is shown that for a more complex case (corre…

2300Sorptivity0208 environmental biotechnologyGreen-Ampt infiltration model; Hillslope hydrology; Kinematic wave equations; 2300; Environmental Chemistry; Water Science and Technology; Civil and Structural Engineering02 engineering and technologyMechanicsGreen-Ampt infiltration modelHillslope hydrologyPhysics::Geophysics020801 environmental engineeringKinematic wave equationKinematic waveInfiltration (hydrology)Error analysisImpervious surfaceEnvironmental ChemistrySettore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-ForestaliGeotechnical engineeringSurface runoffTime of concentrationGeologyGeneral Environmental ScienceWater Science and TechnologyCivil and Structural Engineering
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Overland Flow Times of Concentration for Hillslopes of Complex Topography

2016

The time of concentration is an important parameter for predicting peak discharge at the basin outlet and for designing urban infrastructure facilities. In studying the hillslope response, employing hydraulic equations of flow, the shape of the hillslope geometry has often been assumed as rectangular and planar. However, natural hillslopes have complex topographies whose shapes are characterized by irregularly spaced contour lines. Recently, kinematic wave time of concentration has been derived for rectangular and curved parallel hillslopes. This paper extends this work to hillslopes of complex planform geometry, considering the degree of divergence or convergence of the hillslope. The exte…

HydrologyComplex topography0208 environmental biotechnologyUrban infrastructure02 engineering and technologyStructural basinAgricultural and Biological Sciences (miscellaneous)020801 environmental engineeringSettore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-ForestaliSurface runoffGeomorphologyTime of concentrationGeologyHillslope hydrology Overland flow Convergent and divergent hillslopes Concave and convex profileWater Science and TechnologyCivil and Structural Engineering
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Determining Probability Distribution of Hillslope Peak Discharge by Using an Analytical Solution of Kinematic Wave Time of Concentration.

2016

Hillslope hydrology is fundamental for understanding the flood phenomenon and for evaluating the time of concentration. The latter is a key variable for predicting peak discharge at the basin outlet and for designing urban infrastructure facilities. There have been a multitude of studies on the hydrologic response at the hillslope scale, and the time of concentration has been derived for different approaches. One approach for deriving hillslope response utilizes, in a distributed form, the differential equations of unsteady overland flow, specifically developed at the hydrodynamic scale, in order to account for the spatial heterogeneity of soil characteristics, topography, roughness and veg…

Time of concentrationSettore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-ForestaliPeak DischargeProbability DistributionAnalytical Solution
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Role of land set-up systems on soil (physicochemical) conditions

2020

Land reclamation and drainage networks represent one of the most ancient human modifications of the Italian soilscape, where tailored land set-up systems were developed in agro- and forestecosystems in three millennia of man’s activity. Most of once manually maintained land settings are currently scarcely working or even disappeared because of the cost needed for their maintenance and the advent of mechanization that have simplified the field organization. The scarce attention to the soil experienced in the last decades, has accelerated soil erosion and flooding events, which entailed high costs in terms of money and human lives, but also caused reduction of soil thickness, water holding ca…

soil fertilitylcsh:SLand reclamationAgricultural engineeringsoil erosion.lcsh:Plant cultureLand reclamation soil erosion soil fertility soilscape time of concentrationsoilscapeSet (abstract data type)lcsh:AgricultureSettore AGR/14 - PedologiaEnvironmental sciencetime of concentrationlcsh:SB1-1110Agronomy and Crop ScienceItalian Journal of Agronomy
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