Difference between revisions of "Make data accessible by Xuan Yu"
From Geoscience Paper of the Future
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<br/><b>Details on how to do this task:</b> [[Make data accessible]]<br/><br/> | <br/><b>Details on how to do this task:</b> [[Make data accessible]]<br/><br/> | ||
| − | PIHM has been validated by the V-catchment. Here we prepared the input files for the V-catchment simulation. The V-catchment is benchmark example for the 2-D overland surface flow coupled with channel routing [http://dx.doi.org/10.1016/S0022-1694(96)80014-X "P. Di Giammarco et al., 1996"]. In the benchmark example, a rainfall event of 90-minute duration, 3e-6 m/s is applied on the V-catchment. The runoff at the outlet is usually compared for model validation. In this section, we shows how to use PIHM simulate the rainfall-runoff response of the V-catchment. PIHM uses triangular mesh to represent the domain. The grid resolution may vary. Here, we used 782 triangles ( the area ranges from 1534.9m<sup>2</sup> to 2379.5m<sup>2</sup>, with an average of 2046.0m<sup>2</sup>) to represent the domain [[File:Vcatchmesh.eps.png|thumb|Figure 1: PIHM mesh and domain for the V-catchment. The geometry of the catchment and the channel is from [http://dx.doi.org/10.1016/S0022-1694(96)80014-X "P. Di Giammarco et al., 1996"]]]. The PIHM input | + | PIHM has been validated by the V-catchment. Here we prepared the input files for the V-catchment simulation. The V-catchment is benchmark example for the 2-D overland surface flow coupled with channel routing [http://dx.doi.org/10.1016/S0022-1694(96)80014-X "P. Di Giammarco et al., 1996"]. In the benchmark example, a rainfall event of 90-minute duration, 3e-6 m/s is applied on the V-catchment. The runoff at the outlet is usually compared for model validation. In this section, we shows how to use PIHM simulate the rainfall-runoff response of the V-catchment. PIHM uses triangular mesh to represent the domain. The grid resolution may vary. Here, we used 782 triangles ( the area ranges from 1534.9m<sup>2</sup> to 2379.5m<sup>2</sup>, with an average of 2046.0m<sup>2</sup>) to represent the domain [[File:Vcatchmesh.eps.png|thumb|Figure 1: PIHM mesh and domain for the V-catchment. The geometry of the catchment and the channel is from [http://dx.doi.org/10.1016/S0022-1694(96)80014-X "P. Di Giammarco et al., 1996"]]]. The users need the following step to finish the V-catchment simulation:<br> |
| − | <li> | + | <li>1. Install PIHM at your computer.</li> |
| − | <li> | + | <li>2. Download input files of V-catchment at [http://dx.doi.org/10.6084/m9.figshare.1328521]. </li> |
| + | <li>3. Run PIHM by the command "./pihm". </li> | ||
| + | <li>4. Plot the column 18 of "vcat.rivFlx1". </li> | ||
| + | You will be able to see the runoff response [File:Vcat.png|thumb|Figure 2: PIHM modeled hydrograph of the V-catchment]. | ||
| − | The data is from the experiment in 1974, at Shale Hills, PA [[File:1974.eps.png|thumb|Figure | + | The data is from the experiment in 1974, at Shale Hills, PA [[File:1974.eps.png|thumb|Figure 3: Rainfall runoff responses during the irrigation experiment in 1974.]]. |
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Revision as of 10:26, 9 March 2015
Details on how to do this task: Make data accessible
Figure 1: PIHM mesh and domain for the V-catchment. The geometry of the catchment and the channel is from "P. Di Giammarco et al., 1996"
You will be able to see the runoff response [File:Vcat.png|thumb|Figure 2: PIHM modeled hydrograph of the V-catchment].
