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Interdisciplinary Modeling of Aquatic Ecosystems Curriculum Development Workshop July 18, 2005 Groundwater Flow and Transport Modeling. Greg Pohll Division of Hydrologic Sciences Desert Research Institute. July 18, 2005. Outline. Why model? What are models? Groundwater modeling protocol
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Interdisciplinary Modeling of Aquatic Ecosystems Curriculum Development WorkshopJuly 18, 2005Groundwater Flow and Transport Modeling Greg Pohll Division of Hydrologic Sciences Desert Research Institute July 18, 2005
Outline • Why model? • What are models? • Groundwater modeling protocol • Governing equations • Input/output data • Model scales • Uncertainty • Interdisciplinary issues • Modeling difficulties • Modeling options July 18, 2005
Why Model? • Prediction • Solve management problems • When will contaminated groundwater move off site • How much water can be pumped • Interpretation • Data synthesis • Studying system dynamics • Hypothesis testing • Testing new theories and conceptual models July 18, 2005
What is a Model? • A model is anything that represents an approximation of a field situation • Models include: • Mathematical models • Numerical • Analytical • Physical models • Sand tank • A model is a simplified version of a real system and the phenomena that take place within it July 18, 2005
Modeling Protocol Define Purpose Collect Field Data Conceptual Model Mathematical Model Numerical or Analytical Write or Choose Code No Verify Code Yes Model Design Field Data Calibration No Verification Yes Prediction/Sensitivity Analysis Presentation of Results Collect Field Data Postaudit July 18, 2005
Governing Equations • Flow Model • Transport Model Fluid continuity Storage Sources/sinks First Order Decay Source/ Sink Sorption Matrix Diffusion Advection Dispersion July 18, 2005
Input/Output Data • Flow model input data requirements • Defining hydrostratigraphic units • Fluid sources (e.g. recharge, interbasin flow) • Fluid Sinks (e.g. ET, pumping) • Boundary conditions (e.g. specified flow, specified head, head-dependent) • Model grid geometry • Time stepping information • Hydraulic Parameters • Initial hydraulic head distribution July 18, 2005
Input/Output Data • Flow model output • Hydraulic head values over space and time • Groundwater fluxes over space and time July 18, 2005
Input/Output Data • Transport model input requirements • Fluid velocities • Initial distribution of contaminants • Sources and sinks for contaminants • Boundary conditions • Dispersion coefficients • Effective porosity • Decay and/or reaction coefficients • Contaminant loading functions July 18, 2005
Input/Output Data • Transport model output • Contaminant concentrations over space and time • Contaminant breakthrough curves at specified locations July 18, 2005
Model Scales • Groundwater flow and transport models span scales from the sub-centimeter to 100’s of kilometers July 18, 2005
Model Uncertainty • Predictions made by groundwater flow and transport model are inherently uncertain • The uncertainty stems from numerous sources • Conceptual model errors • Lack of information on the spatial and temporal variability • Errors due to inaccurate boundary condition specification • Numerical solvers can impart errors, especially for transport solutions • Parametric uncertainty in model input parameters July 18, 2005
Input Parameter PDF Model Prediction PDF Model Uncertainty • Since model uncertainty always exists modelers should strive to quantify it impact on model predictions • Methods typically used to quantify uncertainty include: • Taylor’s series approximations (e.g. first order second moment techniques) • Monte Carlo analysis • Statistical evaluation of spatial variability in input parameters • Bayesian techniques July 18, 2005
Interdisciplinary Issues • As groundwater models become more and more complex, so does the need for integrated modeling teams and models • Some of the disciplines that are typically required to effectively build complex models include: • Geochemists • Geologists • Surface water hydrologists • Statisticians • Ecologists • Biologists • Soil scientists • Heath physicists July 18, 2005
Interdisciplinary Issues • Groundwater models are beginning to be coupled to other types of models to investigate various types of problems • Surface/subsurface models (e.g. GSFLOW, MIKE-SHE) • Flow and geochemical reaction models (e.g. FEHM, PHREEQC) • Risk assessment July 18, 2005
Modeling Difficulties • Defining a purpose and associated objectives • Estimating groundwater recharge • Assigning boundary conditions • Calibrating • Estimating the source term for transport models July 18, 2005
Available Groundwater Models July 18, 2005