Tutorials
The following tutorials demonstrate basic FloPy features and usage with MODFLOW 2005, MODFLOW 6, and related programs.
FloPy
MODFLOW 6
- MODFLOW 6: Accessing Simulation Settings, Models, and Packages
- MODFLOW 6: Observation packages
- MODFLOW 6: Time Series Packages
- MODFLOW 6: Time Array Series Packages
- MODFLOW 6: Working with MODFLOW Scalar Data
- MODFLOW 6: Working with MODFLOW List Data.
- MODFLOW 6: Working with MODFLOW Grid Array Data
- MODFLOW 6: Data Storage Information and Performance Optimization
- MODFLOW 6: Multiple Models - How to create multiple models in a simulation
- Observations, time series and time array series
- Working with the Multi-node Well (MNW2) Package
- Make an MNW2 package from scratch
- MNW2 information by node
- Stress period information
- Make
ModflowMnw2
package object - empty
node_data
andstress_period_data
tables can also be generated by the package class, and then filled - Mnw objects
- Build the same package using only the
Mnw
objects - By default, the
node_data
andstress_period_data
tables attached to theModflowMnw2
package class are definitive - Write an MNW2 package file and inspect the results
- Load some example MNW2 packages
- Accessing MODFLOW 6 Output
- Load a simple demonstration model
- Get output using the
.output
attribute - Get head file and cell budget file outputs
- Get output associated with a specific package
- Check which output types are available in a package
- Managing multiple observation and csv file outputs in the same package
- Creating and running ZoneBudget for MF6
- SFR2 package loading and querying
- Unconfined steady-state flow model
MODFLOW-2005
MODFLOW-LGR
MODFLOW-NWT
MT3DMS
- MT3D-USGS: Transport with the SFR/LAK/UZF Packages (SFT/LKT/UZT), and chemical reactions (RCT)
- Using FloPy to simplify the use of the MT3DMS
SSM
package - SEAWAT Tutorial 1: Henry Saltwater Intrusion Problem
- Input variables for the Henry Problem
- Create the basic MODFLOW model structure
- Create the basic MT3DMS model structure
- Create the SEAWAT model structure
- Load the concentration data
- Load the cell-by-cell flow data
- Create a plot with concentrations and flow vectors
- Load the head data
- Create a plot with heads