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AQUIFERS AND THEIR CHARACTERISTICS
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I. General Groups A. Aquifer B. Aquiclude
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I. General Groups A. Aquifer (def) A saturated, permeable, geologic unit that can transmit a significant amount of groundwater under an ordinary gradient.
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I. General Groups A. Aquifer B. Aquiclude (def) A saturated geologic unit which does not transmit a significant quantity of groundwater under ordinary gradients.
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I. General Groups A. Aquifer B. Aquiclude 1. Aquitard 2. Aquifuge
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II. Aquifer Types
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II. Aquifer Types A. Unconfined
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II. Aquifer Types B. Confined
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II. Aquifer Types A. Unconfined B. Confined C. Artesian
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C. Artesian
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II. Aquifer Types A. Unconfined B. Confined C. Artesian D. Perched
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E. Potentiometric Surface and Water Table
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III. Aquifer Characteristics
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T III. Aquifer Characteristics A. Transmissivity
- measures the amount of water that can be transmitted horizontally by a full saturated thickness of aquifer. T
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Storativity (storage coefficient)
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Storativity (storage coefficient)
Water is released from storage via: 1. decrease in fluid pressure 2. increase in pressure from overburden
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S B. Storativity (storage coefficient)
(def): The volume of water that a permeable unit will absorb or expel from storage per unit surface area per unit change in hydraulic head S
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B. Storativity (storage coefficient)
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B. Storativity (storage coefficient)
S ~ Sy
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B. Storativity (storage coefficient)
Example Problem: An unconfined aquifer with a storativity of 0.13 has an area of 123 square miles. The water table drops 5.23 feet during a drought. How much water was lost from storage? 20
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Ss C. Specific Storage (elastic storage coeff.)
(def): The volume of water that a unit volume of aquifer releases from storage under a unit decline in hydraulic head. Ss
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S Ss * b = ? C. Specific Storage (elastic storage coeff.)
(def): The volume of water that a unit volume of aquifer releases from storage under a unit decline in hydraulic head. S Ss * b = ? 22
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S Ss * b = S C. Specific Storage (elastic storage coeff.)
(def): The volume of water that a unit volume of aquifer releases from storage under a unit decline in hydraulic head. S Ss * b = S 23
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IV. Compressibility and Effective Stress A. Compressibility (general)
“When pressure is applied to the aquifer, a reduction of volume can occur in 3 primary ways”
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IV. Compressibility and Effective Stress A. Compressibility (general)
“When pressure is applied to the aquifer, a reduction of volume can occur in 3 primary ways” Compaction of water Compression of individual sand grains Rearrangement of sand grains into more closely-packed configuration 25
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IV. Compressibility and Effective Stress A. Compressibility (general)
“When pressure is applied to the aquifer, a reduction of volume can occur in 3 primary ways” Compaction of water (β) Compression of individual sand grains Rearrangement of sand grains into more closely-packed configuration (α) 26
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IV. Compressibility and Effective Stress A. Compressibility (general)
Stress = Young’s Modulus of Elasticity Strain 27
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IV. Compressibility and Effective Stress A. Compressibility (general)
Strain = Compressibility Stress 28
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β = dVw/Vw dP B. Compressibility of Water (β) Strain = Compressibility
Stress 29
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B. Compressibility of Water (β)
β = dVw/Vw dP β = dρw/ ρw dP 30
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Fluid Pressure Effective Stress
IV. Compressibility of the Aquifer (α) and Effective Stress Compressibility of Porous Medium 1. “In general”….Terzaghi (1925) Stress Total Fluid Pressure Effective Stress 31
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Fluid Pressure + Effective Stress
IV. Compressibility and Effective Stress Compressibility of Porous Medium 1. “In general”….Terzaghi (1925) Stress Total Fluid Pressure + Effective Stress σt P + σe 32
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Fluid Pressure + Effective Stress
Stress Total Fluid Pressure + Effective Stress σt = P + σe 33
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Fluid Pressure + Effective Stress
Stress Total Fluid Pressure + Effective Stress σt = P + σe dσt = dP + dσe 34
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Fluid Pressure + Effective Stress
Stress Total Fluid Pressure + Effective Stress σt = P + σe dσt = dP + dσe dP = -dσe 35
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Fluid Pressure + Effective Stress
Stress Total Fluid Pressure + Effective Stress σt = P + σe dσt = dP + dσe dP = -dσe dP = ρwgdh 36
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α = dVt/Vt dP IV. Compressibility and Effective Stress
C. Compressibility of Porous Medium α = dVt/Vt dP 37
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α = dVt/Vt dP α = db/b dP IV. Compressibility and Effective Stress
C. Compressibility of Porous Medium α = dVt/Vt dP α = db/b dP 38
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Linking the Parameters of α, β, Ss
Water produced by the compaction of the aquifer B. Water produced from expansion of water
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dVwater = ρgα dVwater = ρgnβ Linking the Parameters of α, β, Ss
Water produced by the compaction of the aquifer B. Water produced from expansion of water dVwater = ρgα dVwater = ρgnβ
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dVwater from α + dVwater from β = Ss
Linking the Parameters of α, β, Ss Water produced by the compaction of the aquifer Water produced from expansion of water C. The Link dVwater = ρgα dVwater = ρgnβ dVwater from α + dVwater from β = Ss
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dVwater from α + dVwater from β = Ss
Linking the Parameters of α, β, Ss Water produced by the compaction of the aquifer Water produced from expansion of water C. The Link dVwater = ρgα dVwater = ρgnβ dVwater from α + dVwater from β = Ss ρgα + ρgnβ = Ss
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dVwater from α + dVwater from β = Ss
Linking the Parameters of α, β, Ss Water produced by the compaction of the aquifer Water produced from expansion of water C. The Link dVwater = ρgα dVwater = ρgnβ dVwater from α + dVwater from β = Ss ρgα + ρgnβ = Ss ρg(α + nβ) = Ss
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dVwater from α + dVwater from β = Ss
Linking the Parameters of α, β, Ss Water produced by the compaction of the aquifer Water produced from expansion of water C. The Link dVwater = ρgα dVwater = ρgnβ dVwater from α + dVwater from β = Ss ρgα + ρgnβ = Ss ρg(α + nβ) = Ss S = Ss * ?
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V. Linking the Parameters VI. Summary “ a problem to work….”
A confined aquifer with initial thickness of 45 m compacts by 0.20 m when hydraulic head is lowered by 25m. a) what is the compressibility of the aquifer? b) If the porosity of the aquifer is 12% after compaction, what is the storativity of the aquifer? 45
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