Transport Calculations

1. 1 2 3 4 5 6 n 1 1 2 2 3 3 4 4 5 5 6 6 n n Transport Calculations Advection Dispersion Reaction

2. ADVECTION • Cells are numbered from 1 to N. • Index numbers (of SOLUTION, EQUILIBRIUM_PHASES, etc) are used to define the solution and reactants in each cell • SOLUTION 0 (or N+1) enters the column • Water is “shifted” from one cell to the next

3. ADVECTION • TRANSPORT adds dispersion, stagnant zones, and heat transport

4. ADVECTION • Number of cells • Number of shifts • If kinetics—time step

5. ADVECTION • Output file • Cells to print • Shifts to print • Selected-output file • Cells to print • Shifts to print

6. T.1. Exercise • Run the Oklahoma simulation in a 10-cell column. a. Change the log K to –15 for the following two surface complexation reactions: Hfo_wOH + Mg+2 = Hfo_wOMg+ + H+ Hfo_wOH + Ca+2 = Hfo_wOCa+ + H+ b. Initial conditions: equilibrate the following brine with calcite and dolomite.

7. T.1. Exercise (continued) c. Initial conditions: Equilibrate 1 mol of exchanger with the reacted brine and place in each cell of the column. d. Initial conditions: Equilibrate 0.07 mol of surface complexation sites with the reacted brine. Assume 600 m^2/g specific surface area and 30 grams of sorbing material. Place the surface in each cell of the column. e. Define evaporated rainwater with the following composition:

8. T.1. Exercise (continued) f. Assume the rainwater reacts with calcite and dolomite in the soil zone and the soil zone pCO2 = 10^-1.5. This water flows into the column. g. Replace half the pore volume of the column with the infilling water. h. Plot pH, Cl (mol/kgw) and total dissolved As (ug/kgw) versus cell number.

9. T.2. Questions • Describe the Cl- profile in the column at the end of the simulation. • Describe the pH profile in the column at the end of the simulation. • What is the pH at which arsenic appears to become a problem?

10. TRANSPORT • Cell lengths Velocity=length/time step! • Dispersivities

11. TRANSPORT • Boundary conditions • Flow direction • Diffusion coefficient • Heat

12. TRANSPORT • Stagnant cells/dual porosity -One stagnant cell -Multiple stagnant cells

13. PHAST • 3D Flow model • PHREEQC chemistry • Capabilities • Specified, leaky, flux boundary conditions • Water table/confined • Wells • Rivers • Sequential iteration • Transport all elements conservatively • Run reactions in each cell • Repeat

14. PHAST • All the data for flow model—porosity, hydraulic conductivity • All the data for solute transport model—dispersivity, boundary conditions • All the data for chemistry • Apply initial conditions by index numbers of PHREEQC • Associate solutions by index numbers for boundary conditions

15. PHAST • Flow and transport file • Keyword driven input • Same input style as PHREEQC • Chemistry data file • Exactly a PHREEQC input file

16. FLOW ANDTRANSPORT DATA FILE GRID -uniform x 0 90000 16 -uniform y 0 48000 9 -uniform z 0 400 5 MEDIA -zone 0. 0. 0. 90000. 48000. 400. -porosity 0.22 -long_dispersivity 4000. -trans_dispersivity 50. -Kx 1.373e-5 -Ky 1.373e-5 -Kz 1.373e-7 -storage 0

17. FLOW-AND-TRANSPORT DATA FILE FLUX_BC -zone 30000. 3000. 400. 90000. 45000. 400. -flux -10e-5 -associated_solution 1 SPECIFIED_VALUE_BC # Lake Stanley Draper -zone 30000. 14000 300. 32000. 20000. 400. -head 348. -associated_solution 1 LEAKY_BC -zone 0. 48000. 0. 29000. 48000. 400. -hydraulic 1.618e-5 -thickness 30000. -head 305.0 -associated 1 CHEMISTRY_IC -zone 0. 0. 0. 90000. 48000. 400. -solution 2 -equilibrium_phases 2 -exchange 2 -surface 2

18. MODELVIEWER • Solid/None • Model features • Grid lines • Color bar • Show—select items to be present in the visualization

19. MODELVIEWER • Data • Color bar • Geometry • Model features • Crop • Animation • Tools—select menus by which you can change the look of the features selected by Show.

20. Buttons • Left mouse—3D rotate • Shift Left mouse—2D rotate in plane of screen • Middle mouse—Drag • Right mouse—Grow and shrink

21. MODELVIEWER

22. T.2. Exercise • Run phast from a command prompt in the directory Friday\phast.ok phast ok • Start ModelViewer • File->Open Friday\phast.ok\ok.mv • Use ModelViewer to make an animation of the evolution of arsenic in ground-water chemistry in Central Oklahoma