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A list of all pages that have property "Describe length scale and resolution" with value "Hundreds of Km (the reach of a river).". Since there have been only a few results, also nearby values are displayed.

Showing below up to 11 results starting with #1.

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List of results

  • Model:GPM  + (From a few hundred m to a few hundred Km)
  • Model:TAo  + (From continental to regional scale (>50 km). Up to a few thousand cells are well handled.)
  • Model:ISSM  + (From hundreds of meters to thousands of kilometers (constraints are mainly HEC-related).)
  • Model:GSFLOW-GRASS  + (GSFLOW is intended for modeling catchments from the km-scale to the 100s-of-km scale)
  • Model:Caesar  + (Has been applied to catchments ranging from 1km^2 to 500km^2, at grid resolutions ranging from 1m to 50m.)
  • Model:GOLEM  + (Has been used on scales from small (few km2) watersheds to sub-continental areas.)
  • Model:WEPP  + (Hillslope simulations are recommended for Hillslope simulations are recommended for lengths not greatly exceeding 100 meters. Watershed simulations should not exceed areas above 260 hectares. Larger areas can be simulated for hillslope spatial analyses only - but the channel processes will not be accurate at these larger scales.ll not be accurate at these larger scales.)
  • Model:Subside  + (Horizontal resolution is typically 100s of meters)
  • Model:Inflow  + (Horizontal resolution is typically 10s of meters)
  • Model:Sakura  + (Horizontal resolution is typically 10s of meters)
  • Model:HydroTrend  + (HydroTrend should be applied to river larger than 100km; and basins smaller than 75000km2.)
  • Model:Pllcart3d  + (In its current state, the code is restricted to low Reynolds number and Peclet number of order 1000.)
  • Model:CHILD  + (In principle, the model can address spatiaIn principle, the model can address spatial scales ranging from gullies and small (~1km2) catchments to mountain ranges, as long as setup and parameters are chosen appropriately. Resolutions greater than about 10,000 nodes normally require significant computation time.ally require significant computation time.)
  • Model:Quad  + (In the field, this model is applicable in the range of landscape and regional scales (~10-100km). It has also been successfully applied at the scale of physical experiments.)
  • Model:IDA  + (Increasing the number of processors should allow larger/higher resolution landscapes to be considered.)
  • Model:RivMAP  + (Input channel masks can be arbitrary resolution)
  • Model:HexWatershed  + (It is best performance for high resolution (<100m) simulation. With the version 3.0, coarser resolution is supported through stream burning feature.)
  • Model:TOPOG  + (It is intended for application to small catchments (up to 10 km2, and generally smaller than 1 km2).)
  • Model:Morphodynamic gravel bed  + (It's a reach scale. It is applied to 30km downstream of the Buech river. However, if dx is changed upward/downward, the time step should be adjusted.)
  • Model:CEM  + (Kilometers to hundreds of kilometers. Numerically, the model can be discretized with much smaller spatial resolution. However, the assumptions of approximately shore-parallel shoreface contours becomes unreasonable at scales smaller than kilometers.)
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