NWRA 8:00 am – 12:00 pm, Tuesday, February 3, 2026
01_GWmodels_INTRO+Basics+Real.v2.pptx
- Groundwater models developed to address questions
- Conceptual model should be developed before groundwater model
- Groundwater models are only as good as supporting data
- Water levels and discharges only direct measurements of groundwater system
02_GWmodels_Flow+Calibration.v2.pptx
- Flow models provide consistent stories that can be compared to data
- Lateral and vertical extents should be enough to solve problem without going too far
- Hydraulic properties, stresses, and boundaries must be defined for entire model
- Parameter estimation formalizes model calibration, where measured and simulated quantities are compared in an objective function
- Parameters are changed so that objective function is reduced
- Parameters typically define arrays of hydraulic properties with zones or pilot points
- Parameter-to-array example and tube-model workbooks in SupportingMaterial\02_Interpolate+TubeMODEL subfolder
03_HydProp+GeoFrameworks.v2.pptx
- Geologic frameworks distribute hydraulic properties through groundwater-flow models
- Groundwater controlled by hydraulically connected fractures
- Detailed, complex frameworks do not improve hydraulic-property estimates
- Compare transmissivity, not hydraulic conductivity, to rock types
04_Looking+CheckingShapes.v2.pptx
- Calibration should be evaluated with more than statistics, such as RMS error
- Visual comparison of model results required to evaluate model plausibility
- Maps and plots provide better visualization, compared to tables
- Looking necessary to cross bar of “Not obviously wrong”
- Broad visualization of simulated results uncovers undefined badness,
which leads to better models - Simplifying model features and integrating results for mapping eases comprehension
- Cheap tools such as Model Viewer and Google Earth encourage looking by more users
- Transmissivity distributions simplify presenting model results and aids comprehension
- Water-level profiles are processed quickly and function
like hydrographs for steady state models
05_GeologicFrameworks_Dos+Donts.v2.pptx
- Geologic frameworks are not data, Distinguish between interpretation and reality
- Geologic frameworks are foundations for distributing hydraulic properties
- Revise geologic framework based on hydrologic data
- Truncate geologic frameworks based on groundwater model purpose
- Detailed, complex frameworks are not always better than simplified frameworks
06_Uncertainty.v2.pptx
- Calibration & uncertainty analysis depend on judgement
- Model developers’ judgement explicitly embedded in objective function and parameters
- Objective function—Data exclusion, data inclusion, and weighting of included data
- Parameters—Spatial extent of faults or zones and pilot-point density,
Ranges of defined parameters, where textbook ranges allow too much
- Model developers’ judgement explicitly embedded in objective function and parameters
- Uncertainty analysis is not free and can cost measuring useful data
07_Apply+Report.v2.pptx
- Results not overly sensitive to detail of model grid
- Increasing discretization increases model run time, which weakens calibration and
post-processing of results - Models flexible—Answer many questions and are improved by clear purpose
- Data and questions should drive model complexity
- Additional data dispels ignorance, not more models
- Show added details improve answers
- Clear ties to measurements increase confidence
- A figure of integrated model results is easier to comprehend than multiple figures and tables that need to be integrated mentally.
- Require complete reporting
- Interior of Earth can be mysterious,
- No aspect of a model should be mysterious
- Workbook 01_DD_CoarseFineGRID_Compare.xlsm and supporting files for creating, executing, and viewing coarse and fine models in SupportingMaterial\07_Apply+Grid+Report subfolder