Cs382

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Revision as of 10:34, 1 November 2007 by Nate (talk | contribs) (Brad and Nate)
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This page documents the work of CS382 - Scientific Computing, Fall 2007


enVision Tabletop Groundwater Simulator

General Instructions

  • Setup
  • Teardown and cleaning
  • Packing and travelling

Instructions for Demonstrations

  • First one
  • Second one
  • etc.

Computational Groundwater Simulations

Fitz and Bryan

  • Experiments
    • Demonstrating porosity
      • model water flow unconfined aquifier
    • Illustrating groundwater flow in a confined aquifer
      • modeling the behaviors of plumes moving thru confined aquifier
    • Describing recharge, transition and discharge areas
      • modeling behavior of water recharge, discharge in wells, lake, etc
  • Computational Tools
    • C
      • +Very fast
      • +Libraries are available
      • +Good distributed Libraries
      • -Potentially difficult to use
      • -no graphics libraries
    • Netlogo
      • +Fancy Graphics
      • +Fun to use
      • +Available examples/code
      • -Slow
      • -Small problem size
      • -No Distributed processing

Peter and Mikio

  • Replace this with the first experiment
  • Replace this with the second experiment
  • Replace this with the third experiment

Brad and Nate

Our goal is an incremental approach towards illustrating groundwater contamination in a confined aquifer. The confined aquifer, viewed between wells 1 and 8, offers an environment within the groundwater simulator with the fewest variables. The first 3 experiments are an effort to illustrate the behavior and underlying science that must be understood and demonstrated in the final experiment.

  • Experiments
    • Diffusion
      • Show diffusion without groundwater movement.
    • Flow Rate
      • Show the leading edge of groundwater contamination as a indicator of flow rate (related to section 5 and 13 in manual)
    • Contaminant Plume Length
      • Determine whether contaminant plume length is affected by flow rate for a given amount of dye
    • Illustrate laminar flow in a confined aquifer (Activity 7-1)
      • Show laminar flow between wells 1 and 8.
    • Soil Density
      • Use displacement method and measurements of aquifer component to determine the density of the soil. We can use this value in silico.
  • Computational Tools
    • NetLogo
      • + Visualization built in
      • + Agent and cell based simulation structure built in
      • - Possible limitation on world size / agent count in RAM
      • - Possible run time slower than groundwater simulator at higher flow rates
      • - Not parallel
    • Python and MYMPI
      • + Parallelizable
      • + Faster than NetLogo in serial code ?
      • + Visualization software exists
      • - Visualization software must be integrated
      • - MYMPI is untested

Activities in Manual

  • Level I: Teaching Basic Groundwater Facts and Concepts with the Model
    • 2-1: Demonstrating porosity
    • 2-2: Porosity demonstrations
    • 3-1: Illustrating the water table (groundwater not flowing)
    • 3-2: Illustrating the water table (groundwater flowing)
    • 3-3: Raising and lowering the water table
    • 4-1: Describing recharge, transition and discharge areas
    • 5-1: Describing the slope on the water table (hydraulic gradient)
    • 6-1: Observing water level differences in wells in recharge and discharge areas
    • 6-2: Potentiometric surfaces
    • 7-1: Illustrating groundwater flow in a confined aquifer
    • 7-2: Groundwater flow in an unconfined (water table) aquifer
    • 8-1: Illustrating and describing groundwater contamination
    • 9-1: Pump and Treat, How to operate the syringe system
    • 9-2: In-situ treatment
  • Level II: Using the Groundwater Model (Elementary - Middle School)
    • 10-1: Describing the model
    • 11-1: Illustrating and calculating porosity
    • 12-1: Estimating the permeability of soils
    • 12-2: Graphing the permeability of soils
    • 12-3: Determining the actual permeability (MS)
    • 12-4: Illustrating the water table
    • 12-5: Explaining the water levels in water wells
    • 12-6 Explaining a sloping water table
    • 12-7 Determine the amount of water (discharge) flowing through the model
    • 14-1: Demonstration illustrating what happens when contaminants in groundwater have densities that differ from groundwater
    • 14-2: Illustrating how water wells are contaminated
    • 14-3: Illustrating the effect of pumping wells on contaminated aquifers
    • 14-4: Illustrating how contaminant concentrations can be changed in groundwater