drop size distribution in emulsification of seawater…dispersant.tulane.edu/2.pdf · drop size...
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Drop Size Distribution in Emulsification of Seawater, Oil and Dispersants
Maffettone & Greco JOR 2004
• Test bed under construction to measure drop size and size distribution of sea water, oil and dispersants in high speed jets
• Two and three phase jet flow
• Dispersant evaluation tool
• Droplet break-up models • Evolution of Q shape factor
to break-up • Modified Maffettone &
Greco model for high shear
oil/gas
dispersant seawater
nozzle
pressure cell
viewing window
Particle size analyzer
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Pablo G. Debenedetti
Computational Studies of Hydrate Formation and Stability
Department of Chemical and Biological Engineering, Princeton University
Objectives Accurate, molecular-based calculation of rates of methane hydrate formation and dissociation Molecular-level insight into mechanisms of nucleation and dissociation across broad ranges of T, P, salinity, supersaturation Influence of dispersants on hydrate formation and stability
Consortium for Molecular Engineering of Dispersant Systems Gulf of Mexico Research Initiative
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Nucleation Rare, fast, activated
Path-sampling techniques Forward Flux Sampling (FFS)(*)
(*) Allen et al., Phys. Rev. Lett., 94, 018104 (2005)
Sharma and Debenedetti, PNAS, 109, 4365 (2012)
Use FFS to compute rates, free energy barriers, identify mechanisms
Effects of T, P, salinity, interfaces, dispersants
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512
300 ns
51262
500 ns 1000 ns
1000 ns
μs MD Simulation of Methane Hydrate Homogeneous Nucleation TIP4P/Ice & united atom LJ, 220K & 200bar
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PLANS
Implement Forward Flux Sampling for hydrate nucleation Rate calculations for methane hydrate across broad ranges of (T, P, salinity, supersaturation) Homogeneous and heterogeneous nucleation (interfaces) Perform simulations in the presence of propylene glycol & selected surfactants
IMPLICATIONS
Hydrates directly relevant to oil spill prevention and remediation In Deepwater Horizon disaster, played major role in cofferdam strategy failure Possible role in original blowout Immense natural gas resource: 21 TCF of in-place hydrates in Gulf of Mexico
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Copolymer-based Dispersants for Oil-drop Stabilization: A
Computer Simulation Study
Carol Hall, N. C. State University
Objective: to discover, through molecular-based simulation, how the sequence of a copolymer-based dispersant impacts the interfacial properties and stability of an oil drop in water.
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Analogy Copolymer Compatibilizers
• Homopolymer blends are immiscible & phase separate
• Copolymer compatibilizers promote miscibility
• AB copolymer– A likes one homopolymer , B likes the other
• :
Surfactant –based Dispersants
• Oil and water are immiscible and phase separate
• Surfactants promote miscibility
• Surfactant- head likes water tail likes oil
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Protein-like Copolymers
Styrene Homopolymer in Coil
State
Styrene/ bromostyrene
protein-like copolymer in the
coil state
Outer styrene segments reacted
with bromine
Styrene Homopolymer (C)
Globule State
Protein-Like copolymers can be made in the laboratory
Our simulations show that protein-like copolymers are effective compatibilizers for homopolymer blends
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Our Plan • Use discontinuous molecular dynamics
(DMD) and lattice Monte Carlo to explore the ability of protein-like sequences based on hydrophobically-modified chitosan to disperse oil in water
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MD simulation of Tween80 and Squalane
Gromacs 4.5.5 Molecular Dynamic simulation engine and gromos United Atom forcefield
Partial charges of atoms are adopted from gromos forcefield, or by quantum mechanics (QM) density function method b3lyp with the basis set 6-31g(d,p)
Intramolecular and intermolecular potentials are adopted from gromos forcefield
Goal: Use molecular dynamics simulations to determine the phase behavior, interfacial tension, and interfacial structure for oil/brine/surfactant, both with or without dissolved gases (with Truskett and Ashbaugh)
Xueming Tang, Ronald R. Larson
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Partial Charges Estimated by Quantum Mechanics and Gromos forcefield
-0.12 0.19
-0.07
-0.07
0.19
-0.12
0.41
-0.70
0.29
0.29
-0.58
n n=4 0.29
n n=4
0.29
0.41
-0.70
0.29
0.29
-0.58
0.15
-0.34
0.33 0.11
-0.36 0.18
0.16
0.03
-0.18 0.20
0.10
-0.36
0.29
-0.07
-0.42 0.17
Example: w=x=y=z=5
-0.55
0.63 -0.37
0.29
0.29 -0.58 n
n=5
0.29
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Tween 80 at interface of water and Oil 0ns 20ns 0ns 17ns
Yellow – Tween 80 head group Pink -- Tween 80 Tail group Blue -- Squalane (oil) Water is omitted for clarity
Upper Left : 6 Tween 80 + 280 Squalane Right: 60 pre-assembled Tween80 + 800 Squalane Lower : Random distributed 60 Tween 80 + 800 Squalane
w=x=y=z=5
0ns 20ns
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Future work & Implications
Add additional salts to mimic sea water conditions : NaCl, MgCl2, Na2SO4
Apply anisotropic pressure coupling to measure Surface tension
Use Martini Coarse grained forcefield to study larger scale systems
Determine kinetics of surfactant adsorption Use results to estimate thermodynamic and kinetic
coefficients to be used in modeling dispersant effects on oil droplet break-up
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Photochemical degradation of oil dispersants in ocean and natural waters
Karl G. Linden, Fernando Rosario-Ortiz, and Stephanie Kover Department of Civil, Environmental, and Architectural Engineering University of Colorado, Boulder
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Fate and Transport Pathways
Air
Sea water
Oil/COREXIT Mixture
Sand
HO•, 1O2, 3DOM* kd
kwp
kH
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Study individual components of dispersants COREXIT 9500 and 9527A
Ion Trap LC-MS GC-FID, GC/MS Solar Simulator Solid Phase Extraction (SPE)
• Develop Quantum
Yields • Measure OH and other
radicals rate constants • Predict behavior under
different waters and solar conditions
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Results: Studied 2 compounds to date
Compound A Compound B
koverall (s-1)
6.90 × 10-6 9.81 × 10-6
COMPOUND A: Dioctyl Sodium Sulfosuccinate
COMPOUND B: 1-(2-butoxy-1-methylethoxy)-2-propanol
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GoMRI:CMEDS – Modeling oil spill – effect of surfactant – K. Nandakumar, LSU 1
Use VOF at low Re to track detailed interface dynamics and interface mass transfer of surfactants => predict diameter, jet breakup length
use two-fluid model to study dynamics of jets/plumes
Use population balance models at high Re to predict droplet size distribution.
Goal: to develop dynamic models based on CFD to capture the oil breakup processes
Masutani & Adams (2001), ‘EXPERIMENTAL STUDY OF MULTI-PHASE PLUMES WITH APPLICATION TO DEEP OCEAN OIL SPILLS”
S.L. Ross Environmental Research Ltd. (1997)
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GoMRI:CMEDS – Modeling oil spill – effect of surfactant – K. Nandakumar, LSU 2
Concepts & Physical principles
Involves a complex set of physicochemical processes Significant gas release (in GoM - GOR is 2380) Hydrate formation Dissolution of lighter material followed by sinking Intrusion layer formation in stratified fields Advection of gas and oil at different rates Surface evaporation (followed by sinking?)
Thibodeaux, L. J., K. T. Valsaraj, et al. (2011). Environmental Engineering Science 28(2): 87-93.
Yvon-Lewis, Hu et al. (2011)
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GoMRI:CMEDS – Modeling oil spill – effect of surfactant – K. Nandakumar, LSU 3
Preliminary simulation results
CFD Simulation Crude oil Re = 18
Reynolds number is based on nozzle diameter and properties of the crude oil
Experiments Masutani and Adams(2000)
Crude oil, Re = 20
Experimentally observed average size of the oil drop lets is 7. 5 mm. The simulated oil droplets after jet break up is 8.1 mm
0
1
2
3
4
5
6
7
8
9
0 50 100 150 200Je
t bre
akup
leng
th (c
m)
Reynolds number
― CFD; ■, Experiments Masutani and Adams(2000)
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GoMRI:CMEDS – Modeling oil spill – effect of surfactant – K. Nandakumar, LSU 4
Implications of work Can shed light on the forces that determine the fate of the hydrocarbons
Predicting the diameter of droplet/bubbles is crucial. It determines the residence time, hence the amount of dissolution of the light material and hence the ultimate fate of the droplets.
t = 5 hrs t = 3.5 hrs t = 4.4 hrs
A B C
0.2 m/s
0.2 m/s0.4 m/s
High fidelity (DNS-VOF) model captures dissolution while rising in water and evaporation on the surface followed by sinking to the ocean floor.
Low fidelity (TFM) model captures plume dynamics and its interaction with the ocean currents.
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Dispersant-Assisted Motility of Bacteria in Porous Media Kyriakos Papadopoulos
Tulane University
Objective: Determine and control the response of bacterial swimming to dispersants in porous media More specifically, Prevent: aggregation – biofilm formation – pore clogging Facilitate and promote: unidirectional and steritactic swimming
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Concept and physical principles
Steritaxis
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Steritaxis in Tapered (Conical) Capillaries
Steritaxis in Transparent 3-D Random, Natural Porous Media in Capillary Packed Beds
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Interaction of Oil droplets with Wetland plant life
Noshir S. Pesika Chemical & Biomolecular Engineering Department
Tulane University New Orleans, LA
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(1) Understand the interaction of oil droplets with wetland plant life (2) Identify new dispersant formulations based on block copolymers and/or pickering
emulsions to enhance the stability of dispersed oil droplets
Goals
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Preliminary Results
Mimicking a leaf (Spartina alterniflora) surface
AFM image of the top surface of a leaf. RMS ~50 nm
Topography Surface energy
Static contact angle measurement using a water drop. Contact angle ~135o
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Future plans: Interaction between Oil and Surfaces
AFM force measurements
Pendant drop measurements
New dispersant formulations based on pickering emulsions and block co-polymers
• Distance-force curves
• Dynamic and equilibrium surface tension
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PrincetonUniversity
Microfluidic studies of dispersion and coalescence
Robert K. Prud’homme & Howard A. Stone: Princeton Univ. Technical Goal: Understand the optimal surfactant and
polymeric surfactant combinations to enable rapid dispersion of oil in the deep water environment, but stabilization against coalescence at the ocean surface.
Scientific Goal: (1) Understand rapid kinetic processes involving adsorption of small (surfactant) and large (polymers) species on oil/water interfaces using microfluidics. Develop the microfluidics tools to study these processes on faster times scales than has been previously possible. (2) Understand long time kinetics of desorption/deprotection of liquid interfaces using ultracentrifugaiton.
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PrincetonUniversity
Microfluidics for sub-millisecond drop breakup
1. Microfluidics enables ultrafast studies of surfactant attachment to interfaces and drop breakup.
2. The drop breakoff problem mimics oil dispersion where surfactant and flow disperses oil.
3. Microfluidic geometries enable drop breakup frequencies O(kHz ). The rules for constant surface tension, immiscible fluid breakup are known. By introducing surfactant and amphiphilic polymer solutions “effective” interfacial tensions can be determined.
4. Interfacial Fluorescent Radiative Energy Transfer (FRET) measurements are being pursued to directly measure surfactant arrival on the interface at sub-millisecond time scales.
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PrincetonUniversity
Microfluidics for rapid and controlled coalescence studies
1. In the initial dispersion event the prevention of re-coalescence is required.
2. A novel microfluidics geometry enables drop generation and contact over time scales of sub-second . The forces of contact are known quantitatively.
3. The surfactant/polymer protection of the interface against coalescence will be studied.
Lai, A.; Bremond, N.; Stone, H. A. Journal of Fluid Mechanics 2009, 632, 97. Bremond, N.; Thiam, A. R.; Bibette, J. Physical Review Letters 2008, 100.
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PrincetonUniversity
Ultracentrifuge studies of long-time stability
1. When oil rises to the surface it is desirable to prevent coalescence into a “slick”. During the slow rise to the ocean surface the partitioning of surfactants off of the interface can lead to unstable drops and coalescence. Polymers are more resistant to displacement.
2. Model monodisperse emulsions made using microfluidics will be dialyzed to allow surfactant displacement.
3. Ultracentrifugation will be used to impose known forces, image analysis of coalesced drops will be used to assess coalescence and stability.
4. Fluorescently tagged polymers will enable measurement of polymer concentrations at the interface.
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PrincetonUniversity
Current status
1. Chris Chen, a first year graduate student from Stanford, has joined the project.
2. The microfluidics device (tee junction) has been fabricated and tested
3. Fluorescent FRET pairs are being synthesized to to study surfactant concentration at interfaces with sub-millisecond resolution.
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Equilibrium dispersant behavior relevant to deep-sea water conditions: Coarse-grained approaches for modeling effects of low temperature, high pressure, and high salt concentration TM Truskett, The University of Texas at Austin
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What’s essential for modeling phase behavior, CMCs, interfacial tension, etc.?
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-viable multi-scale strategy -adequate “effective” description of water
What’s essential for modeling phase behavior, CMCs, interfacial tension, etc.?
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-viable multi-scale strategy -adequate “effective” description of water
What’s essential for modeling phase behavior, CMCs, interfacial tension, etc.?
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Research activities Theory Extend molecular thermodynamic approaches of • Jusufi et al., J. Phys. Chem. B, 2012 & • Srinivasan and Blankschtein, Langmuir, 2003 to address low T, high P, and high salt concentrations. Simulations Develop and explore the state-point sensitivity of coarse-grained models for dispersants via Allen & Rutledge, J. Chem. Phys., 2009.
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Research activities Theory Extend molecular thermodynamic approaches of • Jusufi et al., J. Phys. Chem. B, 2012 & • Srinivasan and Blankschtein, Langmuir, 2003 to address low T, high P, and high salt concentrations. Simulations Develop and explore the state-point sensitivity of coarse-grained models for dispersants via Allen & Rutledge, J. Chem. Phys., 2009.
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Implications Practical New tools for predicting properties of dispersants in water for conditions relevant to deep-sea releases Properties can help to design new dispersants and provide data needed for continuum models Fundamental New understanding of hydration and assembly processes in aqueous media Stringent tests that will help to develop and improve coarse-graining strategies
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Implications Practical New tools for predicting properties of dispersants in water for conditions relevant to deep-sea releases Properties can help to design new dispersants and provide data needed for continuum models Fundamental New understanding of hydration and assembly processes in aqueous media Stringent tests that will help to develop and improve coarse-graining strategies
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Atmospheric Transport of Oil and Dispersant Components
By Aerosolization from a Deep Sea Oil Spill
Franz S. Ehrenhauser, Paria Avij, Victoria Dugas, Isaiah Woodson, Kalliat T. Valsaraj
Cain Department of Chemical Engineering
Louisiana State University, Baton Rouge, USA
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Atmospheric Transport of Oil and Dispersant Components By Aerosolization from a Deep Sea Oil
Spill
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Methods
AirSalt Water
Air Lift
Oil
Electrostatic Precipitator
Air
• Aerosol generation via bubble column reactor
• GC-MS (GC-FID) analysis of oil spill matter and generated aerosol
• Characterization of generated aerosol particles via GC-MS, SEM,
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Particle diameter (square) µm
0-0.25 0.25-0.5 0.5-1 1-1.5 1.5-2 2-2.5 >2.5
Num
ber o
f Par
ticle
s
0
20
40
60
80
100
120
140
160
Preliminary Results
GC Retention Time [min]10 20 30 40 50
TIC
[cps
]
0
5e+5
1e+6
2e+6
2e+6
3e+6
3e+6
C32C31C30C29
C15
C16
C17
C18
C19
C28C27C26
C25C24
C23
C22
C21
C20
C36
C35C34C33
C37 C38 C39
GC Retention Time [min]10 20 30 40 50
TIC
[cps
]
0
5e+4
1e+5
2e+5
2e+5
C32C31
C30C29
C17
C18
C19
C28C27
C26C25
C24C23
C22
C21
C20
C35C34
C33
Oil Mousse
Aerosol
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Proposed Work • Evaluation of the generated aerosol via bursting bubbles
in the presence and absence of surface active compounds
• Evaluation of the aerosolization of oil spill matter (source/surface oil and aged oil) in the presence of dispersants
• Dispersants to be tested: Corexit 9527, Corexit 9500, Dispersit, anionic, nonionic and cationic surfactants
• More: Wednesday, March 28, 2012 06:00 PM ENVR General Posters