FLUD Research Group DataVerse

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1 to 10 of 35 Results

Water Surface Elevations: Baseline Roughness Scenario Jun 9, 2020 - Roughness Scenarios FLUD Research Group, 2020, "Water Surface Elevations: Baseline Roughness Scenario", https://doi.org/10.18738/T8/G7T78B, Texas Data Repository, V1 Raster maps of water surface elevations (WSEs) that are output from the HEC-RAS 5.0.7 2D hydrodynamic model (Brunner, 2016), and associated with flow stages (0.1m – 11.63m) at 0.25m interval (N=44). These flow stages were output from simulations coincident with the baseline scena...
Water Surface Elevations: Landcover +5% Roughness Scenario Jun 9, 2020 - Roughness Scenarios FLUD Research Group, 2020, "Water Surface Elevations: Landcover +5% Roughness Scenario", https://doi.org/10.18738/T8/UEQZTC, Texas Data Repository, V1 Raster maps of water surface elevations (WSEs) that are output from the HEC-RAS 5.0.7 2D hydrodynamic model (Brunner, 2016), and associated with flow stages (0.1m – 11.63m) at 0.25m interval (N=44). These flow stages were output from simulations coincident with the scenario that...
Water Surface Elevations: Landcover +10% Roughness Scenario Jun 9, 2020 - Roughness Scenarios FLUD Research Group, 2020, "Water Surface Elevations: Landcover +10% Roughness Scenario", https://doi.org/10.18738/T8/LBWRDQ, Texas Data Repository, V1 Raster maps of water surface elevations (WSEs) that are output from the HEC-RAS 5.0.7 2D hydrodynamic model (Brunner, 2016), and associated with flow stages (0.1m – 11.63m) at 0.25m interval (N=44). These flow stages were output from simulations coincident with the scenario that...
Water Surface Elevations: Landcover +25% Roughness Scenario Jun 9, 2020 - Roughness Scenarios FLUD Research Group, 2020, "Water Surface Elevations: Landcover +25% Roughness Scenario", https://doi.org/10.18738/T8/EHFCMN, Texas Data Repository, V1 Raster maps of water surface elevations (WSEs) that are output from the HEC-RAS 5.0.7 2D hydrodynamic model (Brunner, 2016), and associated with flow stages (1.0m – 11.63m) at 0.25m interval (N=44). These flow stages were output from simulations coincident with the scenario that...
Water Surface Elevations: Landcover +50% Roughness Scenario Jun 9, 2020 - Roughness Scenarios FLUD Research Group, 2020, "Water Surface Elevations: Landcover +50% Roughness Scenario", https://doi.org/10.18738/T8/PYIEPU, Texas Data Repository, V1 Raster maps of water surface elevations (WSEs) that are output from the HEC-RAS 5.0.7 2D hydrodynamic model (Brunner, 2016), and associated with flow stages (1.0m – 11.63m) at 0.25m interval (N=44). These flow stages were output from simulations coincident with the scenario that...
Differences in Water Surface Elevation Between Roughness Scenarios: Landcover+10% - Landcover+5% Jun 9, 2020 - Roughness Scenarios FLUD Research Group, 2020, "Differences in Water Surface Elevation Between Roughness Scenarios: Landcover+10% - Landcover+5%", https://doi.org/10.18738/T8/QVSE8E, Texas Data Repository, V1 Raster maps of differences in water surface elevation (WSE) that are based on output from the HEC-RAS 5.0.7 2D hydrodynamic model (Brunner, 2016). The differences are between common flow stages at different roughness scenarios where patches associated with downed trees are 10% gr...
Differences in Water Surface Elevation Between Roughness Scenarios: Landcover+25% - Landcover+10% Jun 9, 2020 - Roughness Scenarios FLUD Research Group, 2020, "Differences in Water Surface Elevation Between Roughness Scenarios: Landcover+25% - Landcover+10%", https://doi.org/10.18738/T8/XCBXG3, Texas Data Repository, V1 Raster maps of differences in water surface elevation (WSE) that are based on output from the HEC-RAS 5.0.7 2D hydrodynamic model (Brunner, 2016). The differences are between common flow stages at different roughness scenarios where patches associated with downed trees are 25% gr...
Differences in Water Surface Elevation Between Roughness Scenarios: Landcover+50% - Landcover+25% Jun 9, 2020 - Roughness Scenarios FLUD Research Group, 2020, "Differences in Water Surface Elevation Between Roughness Scenarios: Landcover+50% - Landcover+25%", https://doi.org/10.18738/T8/3CPOPO, Texas Data Repository, V1 Raster maps of differences in water surface elevation (WSE) that are based on output from the HEC-RAS 5.0.7 2D hydrodynamic model (Brunner, 2016). The differences are between common flow stages at different roughness scenarios where patches associated with downed trees are 50% gr...
Mesh Resolution of HEC-RAS Models: Average Point Spacing of 7.5m-15.0m Jun 9, 2020 - Roughness Scenarios FLUD Research Group, 2020, "Mesh Resolution of HEC-RAS Models: Average Point Spacing of 7.5m-15.0m", https://doi.org/10.18738/T8/CES19C, Texas Data Repository, V1 Shapefiles of Computational Meshes for HEC-RAS Models for that have an average point spacing of 7.5m, 10.0m, 12.5m, and 15.0m (original). Created with the export feature of RAS-Mapper for HEC-RAS v 5.0.7 (Brunner, 2016) Brunner, G.W. (2016). HEC-RAS: River Analysis System, 2D Mod...
Hydrodynamic Model Input Data Jun 9, 2020 - Roughness Scenarios FLUD Research Group, 2020, "Hydrodynamic Model Input Data", https://doi.org/10.18738/T8/CNCXAN, Texas Data Repository, V1 Shapefiles and tables of values that are important for setting up a HEC-RAS model simulation for the Mission River Floodplain. Included in this dataset are the roughness patches that have Manning’s N values assigned to each patch for each of the five roughness scenarios (baseline...

Water Surface Elevations: Baseline Roughness Scenario

Jun 9, 2020 - Roughness Scenarios

FLUD Research Group, 2020, "Water Surface Elevations: Baseline Roughness Scenario", https://doi.org/10.18738/T8/G7T78B, Texas Data Repository, V1

Raster maps of water surface elevations (WSEs) that are output from the HEC-RAS 5.0.7 2D hydrodynamic model (Brunner, 2016), and associated with flow stages (0.1m – 11.63m) at 0.25m interval (N=44). These flow stages were output from simulations coincident with the baseline scena...

Water Surface Elevations: Landcover +5% Roughness Scenario

Jun 9, 2020 - Roughness Scenarios

FLUD Research Group, 2020, "Water Surface Elevations: Landcover +5% Roughness Scenario", https://doi.org/10.18738/T8/UEQZTC, Texas Data Repository, V1

Water Surface Elevations: Landcover +10% Roughness Scenario

Jun 9, 2020 - Roughness Scenarios

FLUD Research Group, 2020, "Water Surface Elevations: Landcover +10% Roughness Scenario", https://doi.org/10.18738/T8/LBWRDQ, Texas Data Repository, V1

Water Surface Elevations: Landcover +25% Roughness Scenario

Jun 9, 2020 - Roughness Scenarios

FLUD Research Group, 2020, "Water Surface Elevations: Landcover +25% Roughness Scenario", https://doi.org/10.18738/T8/EHFCMN, Texas Data Repository, V1

Raster maps of water surface elevations (WSEs) that are output from the HEC-RAS 5.0.7 2D hydrodynamic model (Brunner, 2016), and associated with flow stages (1.0m – 11.63m) at 0.25m interval (N=44). These flow stages were output from simulations coincident with the scenario that...

Water Surface Elevations: Landcover +50% Roughness Scenario

Jun 9, 2020 - Roughness Scenarios

FLUD Research Group, 2020, "Water Surface Elevations: Landcover +50% Roughness Scenario", https://doi.org/10.18738/T8/PYIEPU, Texas Data Repository, V1

Differences in Water Surface Elevation Between Roughness Scenarios: Landcover+10% - Landcover+5%

Jun 9, 2020 - Roughness Scenarios

FLUD Research Group, 2020, "Differences in Water Surface Elevation Between Roughness Scenarios: Landcover+10% - Landcover+5%", https://doi.org/10.18738/T8/QVSE8E, Texas Data Repository, V1

Raster maps of differences in water surface elevation (WSE) that are based on output from the HEC-RAS 5.0.7 2D hydrodynamic model (Brunner, 2016). The differences are between common flow stages at different roughness scenarios where patches associated with downed trees are 10% gr...

Differences in Water Surface Elevation Between Roughness Scenarios: Landcover+25% - Landcover+10%

Jun 9, 2020 - Roughness Scenarios

FLUD Research Group, 2020, "Differences in Water Surface Elevation Between Roughness Scenarios: Landcover+25% - Landcover+10%", https://doi.org/10.18738/T8/XCBXG3, Texas Data Repository, V1

Differences in Water Surface Elevation Between Roughness Scenarios: Landcover+50% - Landcover+25%

Jun 9, 2020 - Roughness Scenarios

FLUD Research Group, 2020, "Differences in Water Surface Elevation Between Roughness Scenarios: Landcover+50% - Landcover+25%", https://doi.org/10.18738/T8/3CPOPO, Texas Data Repository, V1

Mesh Resolution of HEC-RAS Models: Average Point Spacing of 7.5m-15.0m

Jun 9, 2020 - Roughness Scenarios

FLUD Research Group, 2020, "Mesh Resolution of HEC-RAS Models: Average Point Spacing of 7.5m-15.0m", https://doi.org/10.18738/T8/CES19C, Texas Data Repository, V1

Shapefiles of Computational Meshes for HEC-RAS Models for that have an average point spacing of 7.5m, 10.0m, 12.5m, and 15.0m (original). Created with the export feature of RAS-Mapper for HEC-RAS v 5.0.7 (Brunner, 2016) Brunner, G.W. (2016). HEC-RAS: River Analysis System, 2D Mod...

Hydrodynamic Model Input Data

Jun 9, 2020 - Roughness Scenarios

FLUD Research Group, 2020, "Hydrodynamic Model Input Data", https://doi.org/10.18738/T8/CNCXAN, Texas Data Repository, V1

Shapefiles and tables of values that are important for setting up a HEC-RAS model simulation for the Mission River Floodplain. Included in this dataset are the roughness patches that have Manning’s N values assigned to each patch for each of the five roughness scenarios (baseline...

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