Search results for "Flow routing"

showing 4 items of 14 documents

A Marching in Space and Time (MAST) solver of the shallow water equations. Part I: The 1D model

2007

A new approach is presented for the numerical solution of the complete 1D Saint-Venant equations. At each time step, the governing system of Partial Differential Equations (PDEs) is split, using a fractional time step methodology, into a convective prediction system and a diffusive correction system. Convective prediction system is further split into a convective prediction and a convective correction system, according to a specified approximated potential. If a scalar exact potential of the flow field exists, correction vanishes and the solution of the convective correction system is the same solution of the prediction system. Both convective prediction and correction systems are shown to …

irrotational flownumerical methodflow routingfractional time-step methodEulerian methodunsteady flowWater Science and Technology
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Discharge estimation combining flow routing and occasional measurements of velocity

2011

A new procedure is proposed for estimating river discharge hydrographs during flood events, using only water level data at a single gauged site, as well as 1-D shallow water modelling and occasional maximum surface flow velocity measurements. One-dimensional diffusive hydraulic model is used for routing the recorded stage hydrograph in the channel reach considering zero-diffusion downstream boundary condition. Based on synthetic tests concerning a broad prismatic channel, the “suitable” reach length is chosen in order to minimize the effect of the approximated downstream boundary condition on the estimation of the upstream discharge hydrograph. The Manning’s roughness coefficient is calibra…

lcsh:GE1-350Meteorologyflow routing modelslcsh:TDischargelcsh:Geography. Anthropology. RecreationExtrapolationHydrographRating curveGeodesylcsh:Technologylcsh:TD1-1066hydraulic modelSettore ICAR/01 - IdraulicaRouting (hydrology)lcsh:GFlow velocityStage (hydrology)Discharge measurementlcsh:Environmental technology. Sanitary engineeringDischarge measurement; hydraulic models; flow routing modelslcsh:Environmental sciencesGeologyFlow routingHydrology and Earth System Sciences
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Estimation of synthetic flood design hydrographs using a distributed rainfall–runoff model coupled with a copula-based single storm rainfall generator

2014

Abstract. In this paper a procedure to derive synthetic flood design hydrographs (SFDH) using a bivariate representation of rainfall forcing (rainfall duration and intensity) via copulas, which describes and models the correlation between two variables independently of the marginal laws involved, coupled with a distributed rainfall–runoff model, is presented. Rainfall–runoff modelling (R–R modelling) for estimating the hydrological response at the outlet of a catchment was performed by using a conceptual fully distributed procedure based on the Soil Conservation Service – Curve Number method as an excess rainfall model and on a distributed unit hydrograph with climatic dependencies for the …

lcsh:GE1-350Return periodHydrologyFlood mythMeteorologySettore ICAR/02 - Costruzioni Idrauliche E Marittime E Idrologialcsh:QE1-996.5Copula (linguistics)lcsh:Geography. Anthropology. RecreationHydrographRunoff curve numberlcsh:TD1-1066Runoff modelDesign hydrographs Flood frequency estimation bivariate analysis copula distributed rainfall-runoff models flood risk analysislcsh:Geologylcsh:GGeneral Earth and Planetary SciencesEnvironmental sciencelcsh:Environmental technology. Sanitary engineeringDigital elevation modellcsh:Environmental sciencesFlow routingNatural Hazards and Earth System Sciences
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Comparative Analyses between the Zero-Inertia and Fully Dynamic Models of the Shallow Water Equations for Unsteady Overland Flow Propagation

2018

The shallow water equations are a mathematical tool widely applied for the simulation of flow routing in rivers and floodplains, as well as for flood inundation mapping. The interest of many researchers has been focused on the study of simplified forms of the original set of equations. One of the most commonly applied simplifications consists of neglecting the inertial terms. The effects of such a choice on the outputs of the simulations of flooding events are controversial and are an important topic of debate. In the present paper, two numerical models recently proposed for the solution of the complete and zero-inertia forms of the shallow water equations, are applied to several unsteady f…

lcsh:Hydraulic engineeringInertial frame of referencemedia_common.quotation_subject0208 environmental biotechnologyGeography Planning and Development02 engineering and technologyAquatic ScienceInertiaBiochemistryoverland flow routingSettore ICAR/01 - IdraulicaPhysics::Fluid Dynamicslcsh:Water supply for domestic and industrial purposeslcsh:TC1-978Geotechnical engineeringmodels comparisonShallow water equationsinertial termsshallow water equations models comparison fully dynamic model zero-inertia model inertial terms overland flow routingWater Science and Technologymedia_commonlcsh:TD201-500shallow water equationszero-inertia modelMathematical modelcivil_engineeringZero (complex analysis)Mechanicsfully dynamic model020801 environmental engineeringFlooding (computer networking)shallow water equations; models comparison; fully dynamic model; zero-inertia model; inertial terms; overland flow routingGeographyDynamic modelsSurface runoffGeologyFlow routingWater
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