2. Groundwater Hydrology
What is Groundwater?
What is Groundwater Hydrology?
The Geology of Groundwater
Groundwater Recharge
Aquifers
Groundwater Movement
Age of Groundwater
Locating and Mapping Groundwater
Drilling a Groundwater Well
4. Groundwater Hydrology
What is Groundwater?
What is Groundwater Hydrology?
The Geology of Groundwater
Groundwater Recharge
Aquifers
Groundwater Movement
Age of Groundwater
Locating and Mapping Groundwater
Drilling a Groundwater Well
5. What is Groundwater?
Found in the subsurface, inside pores within soil
and rock
Spelled either as two words, Ground Water, or as
one, Groundwater
Groundwater is the largest source of freshwater on
earth, and was little used until recently.
With electricity and the modern pump,
groundwater has become very important to
agriculture, cities, and industries.
It is usually much cleaner than surface water.
6. Figure 4.2 This map of major aquifers in the United States shows an
interesting distribution of groundwater formations.
7. Groundwater Hydrology
What is Groundwater?
What is Groundwater Hydrology?
The Geology of Groundwater
Groundwater Recharge
Aquifers
Groundwater Movement
Age of Groundwater
Locating and Mapping Groundwater
Drilling a Groundwater Well
8. What is Groundwater Hydrology?
It is the study of the characteristics, movement,
and occurrence of water found below the
surface.
Groundwater and aquifers are like surface water
and watersheds
An aquifer is a geologic unit that transmits water.
Piezometric surfaces are used to map water levels,
similar to topographic lines on maps.
Each aquifer has its own piezometric surface.
The water level elevation in wells are used to create
the piezometric surface.
9. Groundwater Hydrology
What is Groundwater?
What is Groundwater Hydrology?
The Geology of Groundwater
Groundwater Recharge
Aquifers
Groundwater Movement
Age of Groundwater
Locating and Mapping Groundwater
Drilling a Groundwater Well
10. The Geology of Groundwater
Sedimentary Rocks
sandstone, shale, limestone, conglomerate
Glaciated Terrain
large valleys and basins were carved out
sediments (sands, clays) were left behind
Alluvial Valleys and Fans
along rivers and streams
Tectonic Formations
solid rock is fractured by pressures due to earth’s
movement
11. Figure 4.3 Continental glaciers of the most recent Ice Age in North America
(approximately 20,000 years ago) reached as far south as the Ohio and
Missouri River Valleys.
16. Figure 4.5 Ms. Cech inspects rock fractures along the Big Thompson River
near Estes Park, Colorado.
17. Groundwater Hydrology
What is Groundwater?
What is Groundwater Hydrology?
The Geology of Groundwater
Groundwater Recharge
Aquifers
Groundwater Movement
Age of Groundwater
Locating and Mapping Groundwater
Drilling a Groundwater Well
18. Groundwater Recharge
Water that replenishes aquifers
Usually from surface water or precipitation that
infiltrates, and then percolates through the vadose
zone
Recharge happens when percolating water finally
reaches the water table, which is the top of the
saturated zone.
Above the water table is the unsaturated zone where
water is held by capillary forces
The root zone may capture some water that infiltrates
and lift it back to the atmosphere.
19. Figure 4.6 Lakes and wetland complexes often exist in areas with shallow
groundwater elevations that intercept the land surface..
21. Groundwater Hydrology
What is Groundwater?
What is Groundwater Hydrology?
The Geology of Groundwater
Groundwater Recharge
Aquifers
Groundwater Movement
Age of Groundwater
Locating and Mapping Groundwater
Drilling a Groundwater Well
22. Aquifers
Water-bearing geologic formation that can
store and yield usable amounts of water
Aquifer types:
unconsolidated, consolidated, fractured
perched, unconfined, confined, artesian
thermal springs
Aquifer properties
porosity = volume of pores (voids) per total volume
of aquifer
n = Vv / Tt
24. Figure 4.10 The Ogallala Aquifer provides water to irrigators, cities, and
other groundwater users in parts of South Dakota, Nebraska, Wyoming,
Colorado, Kansas, Oklahoma, Texas, and New Mexico.
Land surface elevation
in meters
25. Figure 4.7 Two conditions are necessary to create an artesian groundwater system: a
confined aquifer and sufficient pressure in the aquifer to force water in a well or other opening
to rise above the static water level of the aquifer.
Confined Aquifer
28. Example Porosity Calculation
Take a 1000-mL beaker (1 liter)
Fill it with sand to the top
Measure how much water it takes to fill the beaker
to the top (say 300 mL)
The porosity = (300 mL) / (1000 mL) = 30%
29.
30. Groundwater Hydrology
What is Groundwater?
What is Groundwater Hydrology?
The Geology of Groundwater
Groundwater Recharge
Aquifers
Groundwater Movement
Age of Groundwater
Locating and Mapping Groundwater
Drilling a Groundwater Well
31. Groundwater Movement
Water moves because of two factors
The force pushing through the subsurface
The permeability of the geologic media
Darcy’s Law says that the flux of water (flow per
unit area) is calculated using these two factors:
q = K i
q = flux of water, ft / s
K = hydraulic conductivity, ft / s
i = hydraulic gradient, ft / ft
Note they both
have the same
units
32.
33. The hydraulic conductivity, K, is a measure of the
permeability of the aquifer
gravels have large hydraulic conductivities
clays and solid rock have small values
The hydraulic gradient is a measure of the force acting
on the water
it is like the slope of the land surface, water flows faster where it
is steep
i = dh / dl = slope of the water surface
h is the hydraulic head, or water level in a well
dh is the change in water level between two wells
dl is the distance between the wells
determines the direction of flow.
45. Specific Yield
Volume of water that can be removed per unit
volume of aquifer
less than the porosity - hard to get the last drop!
46. Specific Yield Calculation
Take a 1000-mL beaker (1 liter)
Fill it with sand to the top
Measure how much water it takes to fill the beaker
to the top (say 300 mL)
The porosity = (300 mL) / (1000 mL) = 30%
We pour the water out and 250 mL is collected
What is the specific yield?
(250 mL) / (1000 mL) = 25%
Can’t get the last drop!
47. Groundwater Hydrology
What is Groundwater?
What is Groundwater Hydrology?
The Geology of Groundwater
Groundwater Recharge
Aquifers
Groundwater Movement
Age of Groundwater
Locating and Mapping Groundwater
Drilling a Groundwater Well
48. Age of Groundwater
Time it takes for water to move through the subsurface
Maybe 1 to 25 years in aquifers near Athens
Up to 30,000 years for water down on the coast
49.
50. Groundwater Hydrology
What is Groundwater?
What is Groundwater Hydrology?
The Geology of Groundwater
Groundwater Recharge
Aquifers
Groundwater Movement
Age of Groundwater
Locating and Mapping Groundwater
Drilling a Groundwater Well
51. Locating and Mapping Groundwater
The first step is to generate a piezometric surface,
which maps water table elevation
Wells are plotted on a map, and water levels in the wells
are indicated
Lines of constant water level elevations are plotted
(called equipotentials)
Flowlines (also call streamlines) are drawn so that they
are perpendicular to the equipotential lines
Local rivers, lakes, and other surface water features are
plotted on the map.
52. Figure 3.45 Water levels (in feet above sea level) in monitoring wells and
contours of total potential (piezometric surface or water table surface) at a
contaminated site (Fetter, 1988).
Figure 3.45 Water levels (in feet above sea level) in monitoring wells and
contours of total potential (piezometric surface or water table surface) at a
contaminated site (Fetter, 1988).
53. Groundwater Hydrology
What is Groundwater?
What is Groundwater Hydrology?
The Geology of Groundwater
Groundwater Recharge
Aquifers
Groundwater Movement
Age of Groundwater
Locating and Mapping Groundwater
Drilling a Groundwater Well
54. Drilling a Groundwater Well
Various methods are available for drilling a well
A simple method is the auger method, which uses
a screw-like bit. This works in soft materials
For solid rock, a simple technique is the hammer
or percussion method which pounds a hole in the
rock
Rotary methods uses a harden steel bit tipped with
diamonds to cut through the rock. Either water, air
or mud can be used to lubricate and to lift the
cuttings.
55.
56. Well Components
A well pad is placed on the surface to hold up
the well.
A blank casing is used from the surface down
to the aquifer. Clay or concrete fills the space
outside the casing.
A screened casing is used in the aquifer. Sand or
gravel fills the space outside the casing
A submerged turbine pump lifts the water to
the surface. The motor that drives the pump is
either on the surface or also submerged.
62. South Georgia Water Use
Floridan aquifer important
supply for drinking water
and irrigation water
Water wars between
Georgia and Florida over
flow in the Apalachicola
River
Are irrigation wells
reducing flow in the Flint
and Apalachicola Rivers?
Wikipedia
Flint
Chattahoochee
Apalachicola
63.
64. Stream Depletion Factors
Used to assess the effects of well pumping on stream
flow
Depend on
the distance to the stream (less effect with greater
distance)
properties of the aquifer
65. Quiz 4 Two wells are located 1 km (1,000 meters) apart. Well A has a water level of 105 m
and Well B has a water level of 102 m.
Which direction is the groundwater flowing? From Well ____ to Well ____
What is the hydraulic gradient between the two wells?
What is the flux (flow rate) if the hydraulic conductivity is K = 10 m/day?
A one-liter (1,000 mL) beaker is filled with sand and filled to the top with water.
What is the porosity of the material if 250 mL was required to fill the beaker?
We pour the water out, and 200 mL is collected. What happened to the rest of the water?
What would the porosity be if we use clay instead of sand? (more, less, the same)
How much water would pour out if we use clay instead of sand? (more, less, the same)
True - False Questions
[T / F] An aquiclude is a geologic formation that holds a lot of water.
[T / F] Perched aquifers are a kind of artesian aquifer.
[T / F] The Ogallala aquifer is the major aquifer in the Southeastern U.S.
[T / F] The water table is found at the top of the saturated zone.
[T / F] The two factors that determine how much horsepower is needed to lift water are
the amount of water that must be lifted and the height that you must lift the water.
Explain what Stream Depletion Factors are used for
