GMS:DRT Package: Difference between revisions

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==Conceptual model==
==Conceptual Model==


Drains can be modeled using points, arcs and/or polygons in a [[GMS:MODFLOW Conceptual Model Approach|conceptual model]]. The return cell cannot be specified in the conceptual model. This is because the conceptual model is independent of the grid and, in fact, there may be no grid at all when the conceptual model is defined. When GMS performs the '''Map&rarr;MODFLOW''' command, the return cell is always set to be the highest active cell above the drain cell. This can later be changed in the ''Drain Package'' dialog.
Drains can be modeled using points, arcs and/or polygons in a [[GMS:MODFLOW Conceptual Model Approach|conceptual model]]. The return cell cannot be specified in the conceptual model. This is because the conceptual model is independent of the grid and, in fact, there may be no grid at all when the conceptual model is defined. When GMS performs the '''Map&rarr;MODFLOW''' command, the return cell is always set to be the highest active cell above the drain cell. This can later be changed in the ''Drain Package'' dialog.

Latest revision as of 19:47, 6 March 2023

MODFLOW
Pre-processing
MODFLOW Commands
Building a MODFLOW Model
Map to MODFLOW
Calibration
Packages Supported in GMS
Saving a MODFLOW Simulation
Importing MODFLOW Files
Unsupported MODFLOW Features
Run MODFLOW
Post-processing
MODFLOW Display Options
MODFLOW Post-Processing Viewing Options
Reading a MODFLOW Simulation
Tutorials
Packages
Flow: BCF6, HUF, LPF, UPW
Solvers:

DE4, GMG, NWT, PCG,

PCGN, LMG, SIP, SOR,

SMS
Other:

BAS6, BFH, CHD1, CLN,

DRN1, DRT1, EVT1, ETS1,

GAGE, GHB1, GNC, HFB1,

HUF, LAK3, MNW1, MNW2,

OUT1, RCH1, RIV1, SFR2,

STR1, SUB1, SWI2, WEL1,

UZF1

The Drain Return (DRT) package is very similar to the regular Drain (DRN) package. Drains remove water from the aquifer as long as the water table is above the elevation of the drain. With the DRT package, some percentage of that removed water can be reintroduced to the aquifer at a specified grid cell.

DRT boundary conditions can be added to selected cells using the Point Sources/Sinks command in the MODFLOW menu. DRT objects can also be defined using the conceptual model approach in the map module.

Illustration of DRT package[1]

Conceptual Model

Drains can be modeled using points, arcs and/or polygons in a conceptual model. The return cell cannot be specified in the conceptual model. This is because the conceptual model is independent of the grid and, in fact, there may be no grid at all when the conceptual model is defined. When GMS performs the Map→MODFLOW command, the return cell is always set to be the highest active cell above the drain cell. This can later be changed in the Drain Package dialog.

The main DRT parameters and how they can be specified are given in the following table.

DRT Input Parameters
Parameter Points Nodes Arcs Polygons
Conductance YesY YesY YesY
Bottom elevation YesY YesY YesY
Rfprop (return-flow proportion) YesY YesY YesY

When specifying an arc as a DRT arc, the conductance and return flow factor are specified on the arc. Bottom elevation is specified at the nodes on the ends of the arc and is linearly interpolated along the length of the arc.

Care should be taken in entering conductance in the conceptual model so that the units are correct.

The MODFLOW Drain Return Package dialog.

Drain Return Package dialog

The MODFLOW Drain Return Package dialog allows the user to edit the location and the input values associated with each drain boundary condition. Drain boundary conditions cannot be created or deleted from this dialog. They can be created and deleted via the Map → MODFLOW command, or by using the MODFLOW Source/Sink dialog.

The Use Return Flow toggle controls the existence of the "RETURNFLOW" optional keyword in the package input file.

Notes