User:Jcreer/SMS:GSSHA: Difference between revisions

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{{Version SMS 13.4}}
Gridded Surface Subsurface Hydrologic Analysis (GSSHA) is a two-dimensional finite difference rainfall/runoff model. A finite difference grid is used to establish the computational domain and parameters for surface runoff. The GSSHA model is fully coupled with hydraulic stream flow/routing models. Parameters for stream channels are defined using arcs and then mapped to the appropriate underlying grid cells.
Gridded Surface Subsurface Hydrologic Analysis (GSSHA) is a two-dimensional finite difference rainfall/runoff model. A finite difference grid is used to establish the computational domain and parameters for surface runoff. The GSSHA model is fully coupled with hydraulic stream flow/routing models. Parameters for stream channels are defined using arcs and then mapped to the appropriate underlying grid cells.


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==Building a GSSHA Simulation ==
==Building a GSSHA Simulation ==
[[File:|thumb|250 px|Example of a GSSHA simulation in the Project Explorer]]
[[File:GSSHA Project Explorer SMS.png|thumb|230 px|Example of a GSSHA simulation in the Project Explorer]]


Creating a GSSHA Simulation in SMS requires several components. These components include:
Creating a GSSHA Simulation in SMS requires several components. These components include:
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When the simulation has been initially created, the selected UGrid can be linked to the simulation.
When the simulation has been initially created, the selected UGrid can be linked to the simulation.
==GSSHA Graphical Interface==
GSSHA uses a custom interface to specify boundary conditions, model parameters, model control, and material parameters. The interface includes the following:
*GSSHA Simulation
*GSSHA Coverages
*GSSHA Model Control
*GSSHA Mapping Tables
===Simulation Right-Click Menu===
In the Project Explorer, right-clicking on a GSSHA simulation brings up a menu with several commands. Some of these commands are common to other Project Explorer [[SMS:Simulations#General_Simulation_Right-Click_Menu_Commands|right-click menus]]. Others are unique to the simulation right-click menus. Some of these unique commands are:
*Model Control
*Mapping Tables
*Create Link Number Preview
==Importing an Existing GSSHA Model==
SMS can import a GSSHA simulation by opening the GSSHA project file in SMS. Any of the file opening methods in SMS can be used. The GSSHA Project file starts with “GSSHAPROJECT” on the first line of the file. Typically the GSSHA starting filew has a *.gssha or *.prj extension.
==Read GSSHA Solution==
==Unsupported GSSHA Features==
Currently, the following features are not support in the SMS interface:
{|
|-
|
*Evapotranspiration
*Groundwater
*Soil erosion
*Long term simulations
*Snowmelt
|
*Permafrost
*Contaminant transfer
*Nutrients
*Storm/tile drain
*Stochastic
|
*Calibration
*Link CE_QUAL-W2 Output
*Sediment flux
*Pipe flow
*:
|}




{{Navbox SMS}}
{{Navbox SMS}}

Latest revision as of 14:44, 7 May 2024

Gridded Surface Subsurface Hydrologic Analysis (GSSHA) is a two-dimensional finite difference rainfall/runoff model. A finite difference grid is used to establish the computational domain and parameters for surface runoff. The GSSHA model is fully coupled with hydraulic stream flow/routing models. Parameters for stream channels are defined using arcs and then mapped to the appropriate underlying grid cells.

Features of GSSHA include 1D stream flow and infiltration, 2D overland flow and groundwater, and full coupling between the groundwater, shallow soils, streams, and overland flow.[1] "Sediment and constituent fate and transport are simulated in the shallow soils, overland flow plane, and in streams and channels. GSSHA can be used as an episodic or continuous model where soil surface moisture, groundwater levels, stream interactions, and constituent fate are continuously simulated. The fully coupled groundwater to surface-water interaction allows GSSHA to model basins in both arid and humid environments."[1]

The GSSHA model can be added to a paid edition of SMS.[2]

Building a GSSHA Simulation

Example of a GSSHA simulation in the Project Explorer

Creating a GSSHA Simulation in SMS requires several components. These components include:

  • a 2D UGrid
  • a GSSHA boundary conditions coverage

While the project can contain multiple UGrids, only one UGrid can be attached to each GSSHA simulation. The 2D UGrid must follow certain rules that include square cells, not rotated, and numbered the in the way required by GSSHA. The GSSHA 2D UGrid tool can be used to created this UGrid.

To create a GSSHA simulation:

  1. Right-click on an empty space in the Project Explorer, or right-click on "Project Icon.svg Project" in the Project Explorer, and select New Simulation | GSSHA.

When the simulation has been initially created, the selected UGrid can be linked to the simulation.

GSSHA Graphical Interface

GSSHA uses a custom interface to specify boundary conditions, model parameters, model control, and material parameters. The interface includes the following:

  • GSSHA Simulation
  • GSSHA Coverages
  • GSSHA Model Control
  • GSSHA Mapping Tables

Simulation Right-Click Menu

In the Project Explorer, right-clicking on a GSSHA simulation brings up a menu with several commands. Some of these commands are common to other Project Explorer right-click menus. Others are unique to the simulation right-click menus. Some of these unique commands are:

  • Model Control
  • Mapping Tables
  • Create Link Number Preview

Importing an Existing GSSHA Model

SMS can import a GSSHA simulation by opening the GSSHA project file in SMS. Any of the file opening methods in SMS can be used. The GSSHA Project file starts with “GSSHAPROJECT” on the first line of the file. Typically the GSSHA starting filew has a *.gssha or *.prj extension.

Read GSSHA Solution

Unsupported GSSHA Features

Currently, the following features are not support in the SMS interface:

  • Evapotranspiration
  • Groundwater
  • Soil erosion
  • Long term simulations
  • Snowmelt
  • Permafrost
  • Contaminant transfer
  • Nutrients
  • Storm/tile drain
  • Stochastic
  • Calibration
  • Link CE_QUAL-W2 Output
  • Sediment flux
  • Pipe flow


  1. ^ a b "Overview:Overview". GSSHA Wiki. http://www.gsshawiki.com/Overview:Overview. Retrieved on April 26, 2019. 
  2. ^ "SMS Editions & Pricing". Aquaveo. http://www.aquaveo.com/software/sms-pricing. Retrieved on April 26, 2019.