gms linkage with frames workshop u.s. nuclear regulatory commission rockville, maryland pacific...
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GMS Linkage with FRAMESGMS Linkage with FRAMESGMS Linkage with FRAMESGMS Linkage with FRAMES
WorkshopU.S. Nuclear Regulatory Commission
Rockville, Maryland
Pacific Northwest National LaboratoryNovember 15-17, 2005
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ObjectivesObjectivesObjectivesObjectives
Provide NRC/NMSS with a more science-based dose assessment tool for licensing decisionsWhere appropriate, leverage limited resources with EPA, DoD, and DOE.Reproducibility means Credibility
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FRAMES and GMSFRAMES and GMSFRAMES and GMSFRAMES and GMS
GMS is the most sophisticated and comprehensive groundwater modeling package, containing numerous numerical models and support features: ONLY GROUNDWATER
FRAMES seamlessly links user-defined disparate models, databases, and modeling systems to transfer data: Deployable system Conceptualize problem Choose most appropriate models and databases Perform sensitivity/uncertainty analyses Visualize results Document results Automatically reproduce results
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Three-dimensional aquifer modeling of contaminant transport through heterogeneous porous media
GMS Using MT3DMS
←Back
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Simple
Medium
Complex
Model Type 1(e.g., Source Model)
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Model Type 2(e.g., Aquifer from GMS
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FRAMES
= Data processor
= Modules Model Type 3(e.g., Risk Model)
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FRAMES
←Back Forward→
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Select Editors MenuChoose Module Editor
Register the GMS Import, as a system tool
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Register the GMSImport Tool asa System Tool
within FRAMES-2
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Choose “GMSImport.mod,” which will place the GMSImport tool under the “List of Modules,” as “GMSImport,” and will place it in the Menu Bar, under the “Tools” listing.
Choose “Open Module,” which 1) opens to the C:\program files\FramesV2\GMS directory and 2) is used to register existing modules
Click on “System,” “System”
Choose “Editors,” choose “Module Editor”
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Select Tools Menu
Select the Pre-Defined GMS ProjectFile from the “Tools” Menu Bar
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Select the Pre-Defined GMS ProjectFile from the “Tools” Menu Bar
1. Select Tools from the menu (not shown)2. Select GMSImport… (not shown)3. Go to the directory that contains the *.gpr file (e.g.,
C:\program files\gms50\example\), and choose the appropriate *.gpr file (e.g., Ex1_GMS5_project.gpr).
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1. Identify the Name of the Module in FRAMES-2, representing the RT3D calibrated, baseline simulation
2. Define RT3D Input Options3. Identify the Chemical: JP-4 as surrogate to
BTEX4. Identify upstream RT3D boundary
conditions to be changed5. Identify the form of the Output and the
RT3D location of output
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Documents How the Module willCommunicate With the User when
Chosen as the Aquifer Model in the CSM
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Simulation Editor
1. Construct the Conceptual Site Model (CSM)2. Choose the GMS project file simulation, titled GWTest13. Fill-in Input Requirements, related to Options from the Tools menu
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Illustrative ExampleIllustrative ExampleIllustrative ExampleIllustrative Example
Vadose Zone
Dose
←Back Forward→
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Construct the Conceptual Site Model
Choose the RT3D GMS Run, representing the Aquifer Model
Hazard/Risk
HumanIntake
HumanExposure
Source
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Right Click General Info
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Meet User-Defined InputRequirements for Dispersivities
Right Click User Input
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SummarySummarySummarySummary
Models and databases with varying degrees of sophistication are required.GMS provides some of the most sophisticated and accepted groundwater models.FRAMES provides the architectural framework and mechanism to include more science-based modeling.FRAMES and GMS linkage represents a template to allow communication between legacy modeling systems.NRC is coordinating development through an MOU, and benefiting from substantial financial investments by EPA, DoD, and DOE-PNNL.