Today’s Lecture: Grid design/boundary conditions and parameter selection.
Thursday’s Lecture: Uncertainty analysis and Model Validation
Using a regional model to set boundary conditions for a site model
• Telescopic Mesh Refinement (TMR) (USGS Open-File Report 99-238); a TMR option is available in GW Vistas.
• Analytic Element Screening Model
• Analytical Solutions • Numerical Solutions • Hybrid (Analytic Element Method) (numerical superposition of analytic solutions)
ReviewTypes of Models
• Analytical Solutions Toth solution Theis equation etc…
Continuous solution defined by h = f(x,y,z,t)
ReviewTypes of Models
• Numerical Solutions
Discrete solution of head at selected nodal points. Involves numerical solution of a set of algebraic equations.
ReviewTypes of Models
Finite difference models (e.g., MODFLOW)
Finite element models (e.g., MODFE: USGS
TWRI Book 6 Ch. A3) See W&A, Ch. 6&7
for details of the FE method.
Finite Elements: basis functions, variational principle, Galerkin’s method, weighted residuals
• Nodes plus elements; elements defined by nodes
• Nodes located on flux boundaries
• Flexibility in grid design: elements shaped to boundaries elements fitted to capture detail
• Easier to accommodate anisotropy that occurs at an angle to the coordinate axis
• Able to simulate point sources/sinks at nodes
• Properties (K,S) assigned to elements
Involves superposition of analytic solutions. Heads are calculated in continuous space using a computer to do the mathematics involved in superposition.
Hybrid
Analytic Element Method (AEM)
The AE Method was introduced by Otto Strack. A general purpose code, GFLOW, was developed byStrack’s student Henk Haitjema, who also wrote a textbook on the AE Method: Analytic Element Modeling of Groundwater Flow, Academic Press, 1995.
Currently the method is limited to steady-state,two-dimensional, horizontal flow
How does superposition work?
Example: The Theis solution may be added to an analyticsolution for regional flow without pumping to obtain headsunder pumping conditions in a regional flow field.
Theis solution assumesno regional flow.
(from Hornberger et al. 1998)
Solution for regional flow.
Apply principle of superposition by subtracting the drawdowncalculated with the Theis solution from the head computedusing an analytic solution for regional flow without pumping.
(from Hornberger et al. 1998)
0 4 82 Kilometers
Trout Lake
0 2 4 6 km
N
Example: An AEM screening model to set BCs for a site model of the Trout Lake Basin
Outline of the sitewe want to model
Outline of the Trout LakeMODFLOW site model
Analytical element modelof the regional area surroundingthe Trout Lake site
Analytic elementsoutlined in blue& pink representlakes and streams.
Flux boundaryfor the site model
Results of the Analytic Elementmodel using GFLOW
Water table contours from MODFLOW site model using flux boundary conditions extracted from analytic element (AE) model
Trout Lake
Fluxboundaries
Particle Tracking east of Trout Lake
Lake derived
Simulated flow paths
Allequash Lake
Big Muskellunge Lake
Terrestrial
(Pint et. al, 2002)
Things to keep in mind when usingTMR or an AEM screening models toset boundary conditions for site models
• If you simulate a change in the site model that reflectschanged conditions in the regional model, you shouldre-run the regional model and extract new boundaryconditions for the site model.
Example: Simulating the effectsof changes in recharge rate owingto changes in climate
Flux boundaryfor the sitemodelneeds to beupdated toreflectchangedrechargerates.
Things to keep in mind when usingTMR or an AEM screening models toset boundary conditions for site models
• If transient effects simulated in the site model extendto the boundaries of the site model, you should re-runthe regional model under those same transient effectsand extract new boundary conditions for the site model for each time step.
Example: Pumping in a site model such that drawdownextends to the boundary of the site model.
Treating Distant Boundaries
General Head Boundary Condition
Telescopic Mesh Refinement
Analytic Element Regional Screening Model
TMR is increasingly being used to extractsite models from regional scaleMODFLOW models.
For example:
• Dane County Model• Model of Southeastern Wisconsin• RASA models
Also there is an AEM model of The Netherlandsthat is used for regional management problems.
Curvature of the water table
Vertical change in head
Variability of aquifer characteristics (K,T,S) (Kriging vs. zonation)
Variability of hydraulic parameters (R, Q)
Considerations in selectingthe size of the grid spacing
Desired detail around sources and sinks (e.g., rivers)
Grid Design and Boundary Conditions
• Regular vs irregular grid spacing
• Distant boundary conditions
Irregular spacing may be used to obtain detailed head distributions in selected areas of the grid.
Finite difference equations that use irregulargrid spacing have a higher associated error than FD equations that use regular grid spacing.
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