Difference between revisions of "Wetlands:Wetlands conceptual model"

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(Overview)
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[[Image:wetlands1.jpg|frame|none|'''Figure 27.''' Lateral seepage flow conceptually is the flow through the subsurface peat layer. It is calculated as a darcian flow across the entire cell face. The flow through the vegetation is computed as a mixed mode flow, darcian and manning's. The flow is computed for both darcian and manning's flow and the actual flow rate varies between the two depending on the water height in relation to the plant height.]]
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[[Image:wetlands_update.jpg|frame|none|'''Figure 27.''' Lateral seepage flow conceptually is the flow through the subsurface peat layer. It is calculated as a darcian flow across the entire cell face. The flow through the vegetation is computed as a mixed mode flow, darcian and manning's. The flow is computed for both darcian and manning's flow and the actual flow rate varies between the two depending on the water height in relation to the plant height.]]
  
  

Revision as of 02:49, 7 September 2023

Wetlands are unique in their hydrologic characteristics in that they closely couple groundwater flow, surface water flow, and water storage. GSSHA employs a conceptual model that operates on a cell by cell basis.


Overview

The model that GSSHA uses allows infiltration and exfiltration, lateral seepage flow, flow through dense vegetation, and flow overtopping the vegetation.


File:Wetlands update.jpg
Figure 27. Lateral seepage flow conceptually is the flow through the subsurface peat layer. It is calculated as a darcian flow across the entire cell face. The flow through the vegetation is computed as a mixed mode flow, darcian and manning's. The flow is computed for both darcian and manning's flow and the actual flow rate varies between the two depending on the water height in relation to the plant height.


Figure 28. The flow through the vegetation is treated as fully darcian at the bottom of the vegetation and fully manning's at the top of the vegetation. It varies linearly between the two extremes.


Related Topics

GSSHA Wiki Main Page
Primer Main Page

Wetlands
Wetlands conceptual model
Wetlands setup