GMS:MNW1 Package: Difference between revisions

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


MNW1 wells can be modeled using points in a [[GMS:MODFLOW Conceptual Model Approach|conceptual model]]. The user can specify the various MNW1 properties associated with points in a coverage. In addition, a multi-node MNW1 boundary condition can be created using the conceptual model approach. The easiest way to create a multi-node MNW1 boundary condition is to define a well screen associated with the MNW1 point that crosses multiple layers of the MODFLOW grid. Another method for creating a multi-node MNW1 boundary condition is to specify a common "Well ID" to group different points together. Thus, multiple points in the same or different coverages can be used to create multi-node MNW1 boundary conditions.
MNW1 wells can be modeled using points in a [[GMS:MODFLOW Conceptual Model Approach|conceptual model]]. The user can specify the various MNW1 properties associated with points in a coverage. In addition, a multi-node MNW1 boundary condition can be created using the conceptual model approach. The easiest way to create a multi-node MNW1 boundary condition is to define a well screen associated with the MNW1 point that crosses multiple layers of the MODFLOW grid. Another method for creating a multi-node MNW1 boundary condition is to specify a common "Well ID" to group different points together. Thus, multiple points in the same or different coverages can be used to create multi-node MNW1 boundary conditions.

Revision as of 15:55, 28 November 2017

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 Multi-Node Well (MNW1) package was developed to more accurately model wells that are completed in multiple aquifers or in a single heterogeneous aquifer, partially penetrating wells, and horizontal wells that can be affected by the effects of dynamic changes in the distribution of pumping or intraborehole flow that can significantly alter groundwater flow. A more recent revision of the MNW package is available in the MNW2 package. A MODFLOW model can not use both the MNW1 and MNW2 packages, it must use one or the other.

MNW1 boundary conditions can be added to selected cells using the Point Sources/Sinks command in the MODFLOW menu. MNW1 points can also be defined using the conceptual model approach in the map module.

Illustration of MNW package[1]


Conceptual Model

MNW1 wells can be modeled using points in a conceptual model. The user can specify the various MNW1 properties associated with points in a coverage. In addition, a multi-node MNW1 boundary condition can be created using the conceptual model approach. The easiest way to create a multi-node MNW1 boundary condition is to define a well screen associated with the MNW1 point that crosses multiple layers of the MODFLOW grid. Another method for creating a multi-node MNW1 boundary condition is to specify a common "Well ID" to group different points together. Thus, multiple points in the same or different coverages can be used to create multi-node MNW1 boundary conditions.

The MODFLOW Multi-Node Well Package dialog.

Multi-Node Well package dialog

The Multi-Node Well (MNW1) Package dialog allows the user to edit the location and the input values associated with each MNW boundary condition. MNW1 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 upper section of the dialog controls global options for the package. The spreadsheet in the lower section of the dialog controls the boundary conditions that vary with each stress period. The user is referred to the MNW1 documentation for a full explanation of each of the inputs to the MNW1 boundary conditions. GMS has added the Name, Active, and Well ID fields. Name is a label used to identify a boundary condition. Active is a flag used to determine if the boundary condition is used during a particular stress period. The Well ID field is used to identify multi-node wells.

Notes