Problem Set 2 is based on a problem in the MT3D manual; also discussed in Z&B, p. 228-231.
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Transcript of Problem Set 2 is based on a problem in the MT3D manual; also discussed in Z&B, p. 228-231.
Problem Set 2 is basedon a problem in the MT3Dmanual; also discussed inZ&B, p. 228-231.
2D steady state flow in a confined aquifer
We want to predict thebreakthrough curve at thepumping well. The transportproblem is transient.
Peclet numbers = 5 and 25
Zone of lowhydraulic conductivity
GWV screen
Note: the heterogeneityis not present in the firstcolumn
Units in MT3D – see p. 6-8 in the manual
Recommended: use ppm= mg/l gm/m3
That is, use meters; mass is reported in grams.
Mass = c Q t
Concentration units do not have to be consistent with the unitsused for other parameters. It is permissible, for example,to use “ft” for the system parameters and mg/l for concentration.
However, in that case the units calculated in the mass balancewill have inconsistent units and the mass balance numbers willneed to be manually corrected.
Cs = 57.87 ppm Cs = 0
0.00
0.20
0.40
0.60
0.80
1.00
1.20
0.00 0.20 0.40 0.60 0.80 1.00 1.20
Time (years)
Con
cent
ratio
n
TVD
HMOC
Upstream weighting
Central FD
Upstream FD
Central FD
TVD
NOTE. These results were produced using an old version of MT3DMS.Please run again with the latest version of the code.
MT3DMS Solution Options
1
2
3
4
PS#2
Central Difference Solution
Time step multiplier = 141 time steps
Time step multiplier = 1.213 time steps
See information on solution methodologies underthe MT3DMS tab on the course homepage for moreabout these parameters.
Courant number
Boundary Conditions
---for flow problem---for transport problem
Head solution--Flow problem issteady state
Transport Problem
Need to designatethese boundarycells as inactiveconcentration cells.Use zone 10 inthe diffusionsproperties menu ofGroundwater Vistas.
Cells in first row are in zone 10in the diffusion properties menu
This is necessary to prevent loss ofmass through the boundary by diffusion.
Solution at t=1 year
Mass Balance Considerations in MT3DMS
Sources of mass balance information:*.out file*.mas filemass balance summary in GW Vistas
See supplemental information for PS#2 postedon the course homepage for more information onmass balance options.
Mass Balance states that:Mass IN = Mass OUTwhere changes in mass storageare considered either as contributionsto mass IN or to mass OUT.
Water Flow:IN= through upper boundary; injection wellOUT= pumping well; lower boundary
Mass Flux:IN= through injection well; changes in storageOUT= pumping well; lower boundary; changes in storage
wells
IN - OUT = S where S = 0 at steady state conditions
From the *.out file (TVD solution)
Mass Storage: Water
Consider a cell in the model
IN - OUT = S where change in storage isS = S(t2) – S(t1)
If IN > OUT, the water level rises andthere is an increase in mass of water in the cell.IN = OUT + S, where S is positive.Note that S is on the OUT side of the equation.
If OUT > ININ – S = OUT, where S is negativeS is on the IN side of the equation.
From the *.out file (TVD solution)
S
S = c (x y z )
Mass Storage: Solute
IN - OUT = S where change in storage isS = S(t2) – S(t1)
If IN > OUT, concentration in cell increases andthere is an increase in solute mass in the cell.IN = OUT + S, where S is positive.Note that S is on the OUT side of the equation.There is an apparent “sink” inside the cell.
If OUT > IN, the concentration in cell decreases andthere is a decrease in solute mass in the cell.IN – S = OUT, where S is negative and S is on the IN side of the equation. There is anapparent “source” inside the cell.
From the *.out file (TVD solution)
S
IN – OUT = 0(INsource+SIN) - (OUTsource + SOUT)= 0
SIN - SOUT = Storage
HMOC *.mas file
q’s =
General form of the ADE:
Expands to 9 terms
Expands to 3 terms
(See eqn. 3.48 in Z&B)
Where does the extra termcome from?
q’s =
Assume local chemical equilibrium (LEA):
Isotherms
HMOC *.mas file
Mass Balance error for FD solutions should be lessthan 1%.
MOC methods typically report high mass balance errors,especially at early times.
TVD Solution
From the *.out file (TVD solution)
S
IN – OUT = 0(INsource+SIN) - (OUTsource + SOUT)= 0
SIN - SOUT = Storage
From the *.out file (TVD solution)
Last t = 0.0089422 yr
Mass Flux = (mass at t2 - mass at t1) / t