Bancheri LINKERS JGrass-NewAge: WaterBudget component Marialaura Bancheri Correspondence: [email protected]Dipartimento di Ingegneria Civile Ambientale e Meccanica, Trento, Mesiano di Povo, Trento, IT Full list of author information is available at the end of the article Abstract These pages teach how to run the WaterBudget component inside the OMS 3 console. Some preliminary knowledge and installation of OMS is mandatory (see @Also useful). This component deals with the water budget solution, for a defined layer. Given the time series of the rainfall and of the potential evapotranspiration, the components is able to estimate the water storage, to simulate the runoff and the actual evapotranpiration for the considered layer, at different time-step. It also simulate the possible drainage toward deeper layer. The package is perfectly integrated in the JGrass-NewAge, and can be fed by other components, like the one providing the potential evapotranspiration and connected to calibration algorithms. Once parameters are assigned according to the selected model, it can be used for the forecasting water storage in a selected point. @Version: 0.1 @License: GPL v. 3 @Inputs: • Rainfall (mm); • Potential evapotranspiration (mm); • Discharge (if required) (m 3 /s); • Solver model (String); • Q model (String); • AET model (String); • Area of the basin (A) (km 2 ); • Non-linear reservoir parameter (a) (-); • Non-linear reservoir exponent (b) (-); • Maximum storage (mm); • Pore volume in the root zone (nZ) (mm); • Recharge rate (R e )(mm); @Outputs: • Water storage [mm]; • Total discharge [m 3 /m 2 ]; • Actual evapotranspiration [mm]; • Quick runoff [m 3 /m 2 ]; • Drainage from the layer [m 3 /m 2 ]. @Doc Author: Marialaura Bancheri @References: • See References section below Keywords: OMS; JGrass-NewAGE Component Description; Water budget
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These pages teach how to run the WaterBudget component inside the OMS 3console. Some preliminary knowledge and installation of OMS is mandatory (see @Alsouseful). This component deals with the water budget solution, for a defined layer. Giventhe time series of the rainfall and of the potential evapotranspiration, the componentsis able to estimate the water storage, to simulate the runoff and the actualevapotranpiration for the considered layer, at different time-step. It also simulate thepossible drainage toward deeper layer. The package is perfectly integrated in theJGrass-NewAge, and can be fed by other components, like the one providing thepotential evapotranspiration and connected to calibration algorithms. Once parametersare assigned according to the selected model, it can be used for the forecasting waterstorage in a selected point.
@Version:0.1
@License:GPL v. 3
@Inputs:• Rainfall (mm);• Potential evapotranspiration (mm);• Discharge (if required) (m3/s);• Solver model (String);• Q model (String);• AET model (String);• Area of the basin (A) (km2);• Non-linear reservoir parameter (a) (-);• Non-linear reservoir exponent (b) (-);• Maximum storage (mm);• Pore volume in the root zone (nZ) (mm);• Recharge rate (Re) (mm);
@Outputs:• Water storage [mm];• Total discharge [m3/m2];• Actual evapotranspiration [mm];• Quick runoff [m3/m2];• Drainage from the layer [m3/m2].
@Doc Author: Marialaura Bancheri
@References:• See References section below
Keywords: OMS; JGrass-NewAGE Component Description; Water budget