project on brine-based remediation of dnapl-contaminated ...•reference: hill et. al. [es&t,...
TRANSCRIPT
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Project on Brine-Based Remediation of DNAPL-Contaminated
Subsurface SystemsC.T. Miller and R.M. McLaughlin
University of North Carolina
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Motivation
• Multiphase systems result from common sources of contamination
• Remediation of such contaminated systems has proven especially difficult
• A wide variety of schemes have been investigated to accomplish such a remediation
• Brine-based remediation methods motivate this project
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Characteristics of Behavior• NAPLs leave a state of residual saturation in media
through which they pass• NAPLs follow a complex pattern of flow, which is
importantly influenced by media heterogeneity• LNAPLs accumulate on the top of the water table• DNAPLs can sink below the water• NAPLs often reach stable configurations of locally
high saturations known as pools• NAPLs are usually sparingly soluble and DNAPL
contaminants usually degrade slowly---thus are long lived in the environment
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DNAPL Behavior in Heterogeneous Porous Media
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Current Remediation Approaches and Limitations
• Pump-and-Treat• Vapor-Phase Extraction• Air Sparging• Cosolvent and Surfactant Flushing• Thermal Processes• In Situ Biodegradation
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Pump-and-Treat
Federal Remediation Technology: http://www.frtr.gov/matrix2/section4/D01-4-48.html
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Vapor Extraction
Federal Remediation Technology: http://www.frtr.gov/matrix2/section4/D01-4-7.gif
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Air Sparging
Federal Remediation Technology: http://www.frtr.gov/matrix2/section4/D01-4-34.gif
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Cosolvent and Surfactant Flushing
Federal Remediation Technology: http://www.frtr.gov/matrix2/section4/D01-4-6.gif
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Thermal Processes
Federal Remediation Technology: http://www.frtr.gov/matrix2/section4/D01-4-38.gif
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In Situ Biodegradation
Federal Remediation Technology: http://www.frtr.gov/matrix2/section4/D01-4-2.gif
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Summary of Current Approaches
• Mass transfer limitations are important for all technologies that do not mobilize the NAPL---leading to long clean-up times
• Technologies that do mobilize the NAPL phase suffer from uncontrolled mobilization that can contaminate previously clean portions of a system
• Invasive techniques can be prohibitively expensive• In situ removal is a difficult consideration, but effective
remediation methods also must solve the waste stream treatment problem
• No silver bullet: no method will be universally the best choice and economics of restoration will be site dependent
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Objectives of Effective Remediation
• Remove source zone of long-lived contaminants• Do not rely on technologies that can be limited by a
slow mass transfer process• Avoid technologies that can spread a contaminant to
previously clean portions of a system• Target approaches that can reduce a sufficient fraction
of the source mass in a relatively short period of time• Consider technologies that have manageable above-
ground treatment requirements and allow reuse of flushing solutions
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Brine-BasedRemediation Methods
• Manipulate density of aqueous phase to ensure NAPL mobilization is controlled
• Affect balance of forces to free NAPL trapped by capillary forces
• Capture mobilized NAPL as a free phase from the top of the relatively dense aqueous phase
• Use surfactant flushing and vapor extraction to further reduce NAPL residual
• Recycle and recover flushing solutions as appropriate
• Treat and separate waste stream with above-ground unit processes
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Two-Dimensional Unsaturated Downward Vertical Displacement of TCE
•21-cm x 21-cm two-dimensional cell
•Pooled TCE established
•TCE dyed with Oil Red O for visualization
•Established bottom brine layer
•Drained to unsaturated conditions
•0.3 pore-volume downward flush with mixture of sulfosuccinate surfantants
•Measured 80.0% TCE removal, no visible pools
•Reference: Hill et. al. [ES&T, 35(14), 2001]
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Three-Dimensional Unsaturated Downward Vertical Displacement of TCE
•22-cm x 24-cm x 16-cm three-dimensional cell
•Pooled TCE established in heterogeneous media
•TCE dyed with Oil Red O for visualization
•Established bottom brine layer
•Drained to unsaturated conditions
•0.2 pore-volume downward flush with mixture of sulfosuccinate surfantants
•Measured 63.4% TCE removal, no visible pools
•Reference: Hill et. al. [ES&T, 35(14), 2001]
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Three-Dimensional Density-Motivated Mobilization Experiments
Setup
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0
10
20
30
40
50
60
70
80
90
100
0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 7.0
Effluent (PV)
Per
cent
Rec
over
y
Experiment #1
Experiment #2
Experiment #3
Three-Dimensional Density-Motivated Mobilization Experiments
Cumulative Recovery of TCE
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Three-Dimensional Density-Motivated Mobilization Experiments
Well Extraction
Vapor Extraction
Soil Extraction
Experiment #1 1 1.3 1.8 76.5 n/a 14.7 91.2
Experiment #2 1 1.5 2.6 83.5 5.7 1.0 90.2Experiment #3 3 1.4 5.3 86.2 8.2 0.4 94.8
No. Extraction
Wells
Pore Volume
(L)Surfactant
(PV)
TCE Recovery (%) Mass Balance
(%)
Properties and Recovery
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Three-Dimensional Unsaturated Downward Vertical Displacement of TCE
•22-cm x 24-cm x 16-cm three-dimensional cell
•Pooled TCE established in heterogeneous media
•TCE dyed with Oil Red O for visualization
•Established bottom brine layer
•Drained to unsaturated conditions
•3.2 pore-volume downward flush with mixture of sulfosuccinate surfantants followed by vapor extraction
•Measured 99% TCE removal of recovered TCE
•Reference: Johnson et. al. [ES&T, 38(19), 2004]
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Open Issues
• Scale up• Brine density control and recovery• Surfactant selection• Geochemical stability• Waste-stream separation and process treatment design and
pilot testing• Mathematical model development and application• Development of optimal design strategies• Economical analysis
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Test Cells 2 & 3Test Cells 2 & 3
Storage TentStorage Tent
Test Cell 1Test Cell 1Field Operations Field Operations Office/LabOffice/Lab
Jet Grout BarrierJet Grout Barrier
Weather StationWeather Station
Dover National Test Site
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Dover National Test Site
Depth to the water table is approximately 28 feet.
Aquifer depth is approximately 12 feet.
Test cells are double-walled sheet piles driven into the subsurface.
Sheet piles are keyed into a confining aquitard approximately 45 feet below the surface.
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Technical ApproachInjection Well MLS Extraction WellMLS
Packer
Unsaturated Zone
Clay Aquitard
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Brine Density
0.91.01.11.21.31.41.51.61.71.8
0.0 0.1 0.2 0.3 0.4 0.5 0.6
Calcium Bromide Mass Fraction
Den
sity
(g/
mL)
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Brine Viscosity
0
1
2
3
4
5
6
7
0 0.1 0.2 0.3 0.4 0.5 0.6Calcium Bromide Mass Fraction
Visc
osity
(cP
)
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Formation of Brine Layer
0
1
2
3
4
5
6
7
8
0.9 1.1 1.3 1.5 1.7
Density (g/mL)
Elev
atio
n (c
m)
water densityPCE densitybrine densityhigh extraction levellow extraction level9.67 hours15.22 hours24.83 hours32.92 hours
• Three-dimensional experiment
• Dover-like sand
• Brine injected from bottom
• Density monitored throughout the system and with time
• Density of the brine layer exceeds the density of PCE after about 33 hours
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Diffusion of Brine
0
1
2
3
4
5
6
7
8
9
0 200000 400000 600000 800000 1000000
TDS (mg/L)
Elev
atio
n (c
m)
0 hours48 hours119 hours190 hours288 hoursmodel @ 0 hrmodel @ 48 hrmodel @119 hrmodel @190 hrmodel @ 288 hr
• Diffusion of brine about sharp interface observed in space and time
• Density of 1.7 g/mLcorresponds to a TDS of 900,000 mg/L
• PCE density 1.62 g/mLcorresponded to a TDS of 780,000 mg/L
• Brine barrier is stable and long-lived in presence of diffusion alone
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Recovery of Brine
0
1
2
3
4
5
6
7
8
0.9 1.1 1.3 1.5 1.7
Density (g/mL)
Elev
atio
n (c
m)
wat er densit y
PCE densit y
br ine densit y
high ext ract ion level
low ext ract ion level
wat er level at t op
end of high drain
end of low ref ill
640 mL : end of low t o low f lush
2090 mL : high t o low f lush
3088 mL : high t o low f lush
4781 mL : high t o low f lush
• Brine removed by drainage from upper, then lower, ports
• After drainage, horizontal flushing performed
• Water table reduced further as flushing continued
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Effluent Density During Recovery
0.9
1.0
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
-500 1500 3500 5500 7500
Cummulative Effluent Volume (mL)
Den
sity
(g/
mL)
high drainlow drainlow to low flushhigh to low flush
• Three-dimensional cell
• Dover-like sand
• Drained first from top of brine layer
• Drainage from within brine layer
• Horizontal flushing to observe brine residual removal
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Effluent Brine Concentration During Recovery
100
1000
10000
100000
1000000
-500 1500 3500 5500 7500
Cummulative Effluent Volume (mL)
TDS
(mg/
L)
high drain
low drain
low to low flush
high to low flush
• Three-dimensional cell
• Dover-like sand
• Drained first from top of brine layer
• Drainage from within brine layer
• Horizontal flushing to observe brine residual removal
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Project
• Focus on brine emplacement and removal aspects of brine-based technology
• Investigate effects of viscous and gravity instabilities
• Investigate effects of media heterogeneity and learn about homogenization-based upscaling methods