GMS:MT3DMS Packages: Difference between revisions

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MT3DMS is divided into a series of components called "packages." Each package performs a specific task. Some of the packages are always required for a simulation, and some are optional. The input for each package is contained in a separate text file. The MT3DMS packages supported in the GMS interface are listed in the following table:
{{MT3DMS Links}}
MT3DMS is divided into a series of components called "packages." Each package performs a specific task. Some of the packages are always required for a simulation, and some are optional. The input for each package is contained in a separate text file. The [[GMS:Basic_Transport_Package_Dialog#Packages|MT3DMS packages]] supported in the GMS interface are listed in the following table:


{| class="wikitable"
{| class="wikitable"
!width="150"|Package Name
!width="150"|Package Name
!width="100"|Abrev Name
!width="100"|Abbrev.
!width="500"|Decription
!width="500"|Decription
!width="80"|Always Req'd?
!width="80"|Always Req'd?
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|Dispersion||align = "center"|DSP||Solves the concentration change due to dispersion with the explicit finite difference method.||align = "center"|NO
|Dispersion||align = "center"|DSP||Solves the concentration change due to dispersion with the explicit finite difference method.||align = "center"|NO
|-
|-
|[[GMS:MT3D_Source/Sink_Mixing_Package|Sink & Source Mixing]]||align = "center"|SSM||Solves the concentration change due to fluid sink/source mixing with the explicit finite difference method. Sink/source terms may include wells, drains, rivers, recharge, and evapotranspiration. The constant-head boundary and general-head-dependent boundary are also handled as sink/source terms in the transport model.||align = "center"|NO
|[[GMS:MT3DMS_Source/Sink_Mixing_Package|Sink & Source Mixing]]||align = "center"|SSM||Solves the concentration change due to fluid sink/source mixing with the explicit finite difference method. Sink/source terms may include wells, drains, rivers, recharge, and evapotranspiration. The constant-head boundary and general-head-dependent boundary are also handled as sink/source terms in the transport model.||align = "center"|NO
|-
|-
|Chemical Reactions||align = "center"|RCT||Solves the concentration change due to chemical reactions. Currently, the chemical reactions include linear or nonlinear sorption isotherms and first-order irreversible rate reactions (radioactive decay or biodegradation).||align = "center"|NO
|[[GMS:Chemical Reaction Package|Chemical Reactions]]||align = "center"|RCT||Solves the concentration change due to chemical reactions. Currently, the chemical reactions include linear or nonlinear sorption isotherms and first-order irreversible rate reactions (radioactive decay or biodegradation).||align = "center"|NO
|-
|-
|Generalized Conjugate Gradient Solver||align = "center"|GCG||This package can be used to implicitly solve the dispersion, source/sink, and reaction terms of the transport equation.||align = "center"|NO
|Generalized Conjugate Gradient Solver||align = "center"|GCG||This package can be used to implicitly solve the dispersion, source/sink, and reaction terms of the transport equation.||align = "center"|NO
|-
|-
|Transport Observation||align = "center"|TOB||Outputs concentration at observation points and mass fluxes at groups of source/sink boundary conditions.||align = "center"|NO
|[[GMS:Transport_Observation_Package|Transport Observation]]||align = "center"|TOB||Outputs concentration at observation points and mass fluxes at groups of source/sink boundary conditions.||align = "center"|NO
|-
|-
|PHT3D-PHREEQC Interface||align = "center"|PHC||Used by PHT3D to define options for species related to PHREEQC geochemical reactions.||align = "center"|NO
|PHT3D-PHREEQC Interface||align = "center"|PHC||Used by PHT3D to define options for species related to PHREEQC geochemical reactions.||align = "center"|NO
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{|align="center"
{|align="center"
|-
|-
!align="center" colspan="2"|Examples of MT3D package dialogs
!align="center" colspan="2"|Examples of MT3DMS package dialogs
|-
|-
|valign="top"|[[File:MT3D-Advection.jpg|thumb|none|center|290 px|The MT3D ''Advection Package'' dialog.]]
|valign="top"|[[File:MT3D-Advection.jpg|thumb|none|center|290 px|The MT3DMS ''Advection Package'' dialog.]]
|valign="top"|[[File:MT3D-DispersionPackage.jpg|thumb|none|center|300 px|The MT3D ''Dispersion Package'' dialog.]]
|valign="top"|[[File:MT3D-DispersionPackage.jpg|thumb|none|center|300 px|The MT3DMS ''Dispersion Package'' dialog.]]
|-
|valign="top"|[[File:MT3D-TransportObservation.jpg|thumb|none|center|250 px|The MT3D ''Transport Observation Package'' dialog.]]
|valign="top"|[[File:MT3D-ChemicalReaction.jpg|thumb|none|center|300 px|The ''MT3DMS Chemical Reaction Package'' dialog'']]
|}
|}




{{Navbox GMS}}
{{Navbox GMS}}
[[Category:MT3DMS]]
[[Category:MT3DMS|Pack]]
[[Category:PHT3D]]
[[Category:PHT3D|Pack]]
[[Category:MT3DMS Dialogs]]
[[Category:MT3DMS Dialogs|Pack]]
[[Category:PHT3D Dialogs]]
[[Category:PHT3D Dialogs|Pack]]
[[Category:Needs Update]]
[[Category:Needs Update]]

Latest revision as of 16:24, 15 November 2017

MT3DMS
Pre-processing
MT3DMS Commands
Building an MT3DMS Simulation
MT3DMS Packages
ICBUND Array
Saving an MT3DMS Simulation
Post-processing
MT3DMS Display Options
Importing an MT3DMS Simulation
Calculate Mass
Tutorials
MT3DMS Tutorials
Packages
Basic Transport Package Dialog
MT3DMS Source/Sink Mixing Package
Chemical Reaction Package
Transport Observation Package

MT3DMS is divided into a series of components called "packages." Each package performs a specific task. Some of the packages are always required for a simulation, and some are optional. The input for each package is contained in a separate text file. The MT3DMS packages supported in the GMS interface are listed in the following table:

Package Name Abbrev. Decription Always Req'd?
Basic Transport Package BTN Handles basic tasks that are required by the entire transport model. Among these tasks are definition of the problem, specification of the boundary and initial conditions, determination of the step size, preparation of mass balance information, and printout of the simulation results. YES
Advection ADV Solves the concentration change due to advection with one of the three mixed Eulerian-Langrangian schemes included in the package: MOC, MMOC, or HMOC NO
Dispersion DSP Solves the concentration change due to dispersion with the explicit finite difference method. NO
Sink & Source Mixing SSM Solves the concentration change due to fluid sink/source mixing with the explicit finite difference method. Sink/source terms may include wells, drains, rivers, recharge, and evapotranspiration. The constant-head boundary and general-head-dependent boundary are also handled as sink/source terms in the transport model. NO
Chemical Reactions RCT Solves the concentration change due to chemical reactions. Currently, the chemical reactions include linear or nonlinear sorption isotherms and first-order irreversible rate reactions (radioactive decay or biodegradation). NO
Generalized Conjugate Gradient Solver GCG This package can be used to implicitly solve the dispersion, source/sink, and reaction terms of the transport equation. NO
Transport Observation TOB Outputs concentration at observation points and mass fluxes at groups of source/sink boundary conditions. NO
PHT3D-PHREEQC Interface PHC Used by PHT3D to define options for species related to PHREEQC geochemical reactions. NO
Examples of MT3DMS package dialogs
The MT3DMS Advection Package dialog.
The MT3DMS Dispersion Package dialog.