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Subsurface Hydrology

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calculate both heads and flows (q) Solute transport requires ... Figure from Freeze & Cherry (1979) Review of the derivation of the. governing equation for ... – PowerPoint PPT presentation

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Title: Subsurface Hydrology


1
Subsurface Hydrology
Unsaturated Zone Hydrology
Groundwater Hydrology
(Hydrogeology)
2
R P - ET - RO
ET
ET
P
E
RO
R
waste
Water Table
Groundwater
3
  • Processes we need to model
  • Groundwater flow
  • calculate both heads and flows (q)
  • Solute transport requires information on flow
    (velocities)
  • calculate concentrations

Darcys law
4
  • Types of Models
  • Physical (e.g., sand tank)
  • Analog (electric analog, Hele-Shaw)
  • Mathematical

5
  • Types of Solutions of Mathematical Models
  • Analytical Solutions h f(x,y,z,t)
  • (example Theis eqn.)
  • Numerical Solutions
  • Finite difference methods
  • Finite element methods
  • Analytic Element Methods (AEM)

6
  • Finite difference models
  • may be solved using
  • a computer programs (e.g., a FORTRAN program)
  • a spreadsheet (e.g., EXCEL)

7
  • Components of a Mathematical Model
  • Governing Equation
  • Boundary Conditions
  • Initial conditions (for transient problems)

In full solute transport problems, we have
two mathematical models one for flow and one
for transport.
The governing equation for solute transport
problems is the advection-dispersion equation.
8
  • Flow Code MODFLOW
  • ? USGS code
  • ? finite difference code to solve the groundwater
    flow equation
  • MODFLOW 88
  • MODFLOW 96
  • MODFLOW 2000

9
  • Transport Code MT3DMS
  • ? Univ. of Alabama
  • ? finite difference code to solve the
    advection-dispersion eqn.
  • Links to MODFLOW

10
The pre- and post-processor Groundwater
Vistas links and runs MODFLOW and MT3DMS.
11
Introduction to solute transport
modeling and Review of the governing equation
for groundwater flow
12
Conceptual Model A descriptive
representation of a groundwater system that
incorporates an interpretation of the geological,
hydrological, and geochemical conditions,
including information about the boundaries of the
problem domain.
13
Toth Problem
Head specified along the water table
Groundwater divide
Groundwater divide
Homogeneous, isotropic aquifer
Impermeable Rock
2D, steady state
14
Toth Problem with contaminant source
Contaminant source
Homogeneous, isotropic aquifer
Groundwater divide
Groundwater divide
Impermeable Rock
2D, steady state
15
  • Processes to model
  • Groundwater flow
  • Transport
  • Particle tracking requires velocities and a
    particle tracking code. calculate path
    lines
  • (b) Full solute transport requires velocites
    and a solute transport model. calculate
    concentrations

16
Topo-Drive Finite element model of a version of
the Toth Problem for regional flow in cross
section. Includes a groundwater flow model with
particle tracking.
17
Toth Problem with contaminant source
Contaminant source
Groundwater divide
Groundwater divide
advection-dispersion eqn
Impermeable Rock
2D, steady state
18
  • Processes we need to model
  • Groundwater flow
  • calculate both heads and flows (q)
  • Solute transport requires information on flow
    (velocities)
  • calculate concentrations

Requires a flow model and a solute transport
model.
19
Groundwater flow is described by Darcys
law. This type of flow is known as advection.
Linear flow paths assumed in Darcys law
True flow paths
The deviation of flow paths from the linear Darcy
paths is known as dispersion.
Figures from Hornberger et al. (1998)
20
In addition to advection, we need to consider two
other processes in transport problems.
  • Dispersion
  • Chemical reactions

21
Change in concentration with time
  • is porosity
  • D is dispersion coefficient
  • v is velocity.

22
advection-dispersion equation
groundwater flow equation
23
advection-dispersion equation
groundwater flow equation
24
Flow Equation
1D, transient flow homogeneous, isotropic,
confined aquifer no sink/source term
Transport Equation
Uniform 1D flow longitudinal dispersion No
sink/source term retardation
25
Flow Equation
1D, transient flow homogeneous, isotropic,
confined aquifer no sink/source term
Transport Equation
Uniform 1D flow longitudinal dispersion No
sink/source term retardation
26
Assumption of the Equivalent Porous Medium (epm)
REV
Representative Elementary Volume
27
Dual Porosity Medium
Figure from Freeze Cherry (1979)
28
Review of the derivation of the governing
equation for groundwater flow
29
General governing equation for groundwater flow
Kx, Ky, Kz are components of the hydraulic
conductivity tensor.
Specific Storage Ss ?V / (?x ?y ?z ?h)
30
Law of Mass Balance Darcys Law
Governing Equation for Groundwater Flow
-------------------------------------------------
-------------- div q - Ss (?h ??t) R
(Law of Mass Balance) q - K grad h
(Darcys Law) div (K grad h)
Ss (?h ??t) R

31
Darcy column
?h/L grad h
Q is proportional to grad h
q Q/A
Figure taken from Hornberger et al. (1998)
32
q - K grad h
K is a tensor with 9 components
33
Kxx Kxy Kxz Kyx Kyy Kyz Kzx Kzy Kzz
K
34
Darcys law
q - K grad h
q
equipotential line
grad h
grad h
q
Isotropic Kx Ky Kz K
Anisotropic Kx, Ky, Kz
35
q - K grad h
36
global
local
z
z
x
?
x
Kxx Kxy Kxz Kyx Kyy Kyz Kzx Kzy Kzz
Kx 0 0 0 Ky 0 0 0 Kz
K R-1 K R
37
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38
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39
Law of Mass Balance Darcys Law
Governing Equation for Groundwater Flow
-------------------------------------------------
-------------- div q - Ss (?h ??t) R
(Law of Mass Balance) q - K grad h
(Darcys Law) div (K grad h)
Ss (?h ??t) R

40
OUT IN
?x ?y ?z
change in storage
- ?V/ ?t
Ss ?V / (?x ?y ?z ?h)
41
OUT IN
- ?V
?t
42
Law of Mass Balance Darcys Law
Governing Equation for Groundwater Flow
-------------------------------------------------
-------------- div q - Ss (?h ??t) W
(Law of Mass Balance) q - K grad h
(Darcys Law) div (K grad h)
Ss (?h ??t) W

43
Storage coefficient (S) is either storativity or
specific yield. S Ss b T K b
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