1.case study aegis-mridul- case stdy competition - participation
Donghee Kim and Mridul Gautam IN THE FORMATION OF DIESEL ... · Donghee Kim and Mridul Gautam...
Transcript of Donghee Kim and Mridul Gautam IN THE FORMATION OF DIESEL ... · Donghee Kim and Mridul Gautam...
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PREDICTION OF NUCLEATION AND COAGULATION MODES IN THE FORMATION OF DIESEL PARTICULATE MATTER
Donghee Kim and Mridul GautamDepartment of Mechanical and Aerospace Engineering
West Virginia University
Morgantown, WV 26506
6th International ETH Conference on Nanoparticle MeasurementAugust 19-21, 2002
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Additional Details Available From the Following Papers
1. “On the Prediction of Concentration Variations in a Dispersing Heavy-dutyTruck Exhaust Plume Using k-e Turbulent Closure”, Atmospheric Environment, Vol. 35(31), pp. 5267-75 (2001)
2. “Modeling Nucleation and Coagulation Modes in the Formation of Particulate Matter Inside a Turbulent Exhaust Plume of a Diesel Engines”,Journal of Colloid and Interface Science, Vol. 249(1), pp. 96-103 (2002)
3. “Effect of Ambient Dilution on Coagulation of Particulate Matter in a Turbulent Dispersing Plume”, Air Emissions From Mobile Sources-Recent Data and Trends (Session Code: ENV4) at SAE Congress 2002,Cobo Center, Detroit, MI, March 4-7, 2002, SAE Paper Number 2002-01-0652
4. “Prediction of Pollutant Concentration Variation Inside a Turbulent Dispersing Plume Using PDF and Gaussian Models”, Air Emissions From Mobile Sources- Recent Data and Trends (Session Code: ENV4) at SAECongress 2002, Cobo Center, Detroit, MI, March 4-7, 2002, SAE PaperNumber 2002-01-0654
5. “Effect of Soot on Nox in Industrial Furnaces”, AFRC Fall Symposium,San Francisco, CA, October 4, 1999
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•Particulate Matter in Diesel Exhaust
Continuous Transformation: Nucleation, Coagulation,
Condensation and Evaporation of Organics
and Inorganics
• Fate of Condensable Organics and Inorganics
• Affected by Atmospheric Aging and Dilution of the Exhaust Stream
• Process of Changing Size Distribution-Nucleation, Coagulation
and Condensation
Particulate Matter FormationParticulate Matter Formation
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ObjectivesObjectives• To Predict the Nucleation, Coagulation, and
Dynamics of Particulate Matter Emissions in the Plume of a Class-8 Diesel-fueled Tractor Operating at 55 miles/hour.
To Predict the Structure of Plume, Including Variation of Temperature, Concentration and Dilution Ratio
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Technical ApproachTechnical Approach• Predicted CO2 concentration, dilution ratio, and temperature
variations inside the plume using CFD models
• Solved-using FLUENT Solver
• k-εεεε turbulent closure, eddy dissipation species transport,
energy equation
• Included effect of nucleation, condensation, and coagulation of
particulate matter formation, simultaneously
• With this method, the data required to solve these equations was
significantly reduced.
• Particle concentration predicted based on the sulfur content of fuel,
F/A ratio and ambient conditions
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Plume ModelsPlume Models
• Empirical Gaussian Models (Kaharabata et al., 2000, Hanna, 1984)
• Similarity Models (Obasaju and Robins, 1998, Huai and Li, 1993)
• Probability Density Function Models (PDF) (Reynolds, 2000)
• k-εεεε Models (Sharan and Yadav, 1998, Hwang and Chiang 1988)
• Statistical Models (Heinz and vanDop, 1999, Sawford, 1983)
• Large Eddy Simulation Models (LES) (Sykes et al., 1984)
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Hydrocarbon/Sulfate Particles
Solid Carbonaceous/Ash Particles with AdsorbedHydrocarbon/Sulfate Layer
Sulfuric Acid Particles
Typical Structure of Engine Exhaust ParticlesTypical Structure of Engine Exhaust Particles
• Agglomerated solid carbonaceous particle,
volatile organic, sulfur compounds, ash
•Most of sulfur in the fuel
– oxidized to SO2, then
– oxidized to SO3
– leads to sulfuric acid and sulfate aerosol
• Metal compounds in fuel and lube oil
– lead to inorganic ash
(Seinfeld and Pandis, 1997)
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(a) Binary Vapor (b) Molecular Clusters
(c) Stable Nuclei(d) Particle Growth
Nucleation ProcessNucleation Process
• Homogeneous nucleation (Springer, 1978)- In the absence of condensation nuclei- Require large saturation ratio (S>1)
• Heterogeneous nucleation - Occurs on a foreign substance or surface,
such as an ion or a solid particle• Binary homogeneous nucleation
- Two or more vapor species
(Baumgard and Johnson, 1996)
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• Certain number of H2O and H2SO4 molecules collideFor critical cluster- sufficient energy to be stable
- Greater than critical size, grow (less, shrink)
- Rate of nucleation (H2SO4 hydrate (embryo) formation predicted by Reiss, 1950):
(Grow past critical size)• Higher nucleation rate occurs
at higher relative humidity, and lower temperature
(a) Binary Vapor (b) Molecular Clusters
(c) Stable Nuclei(d) Particle Growth
Nucleation Process (Cont’d)Nucleation Process (Cont’d)
)/exp( kTGCJ ∗∆−=
C is the frequency factor, k is the Boltzmann’s constant, T is the temperatureand ∆G is the free energy required to form an embryo
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Coagulation ModelCoagulation Model
0),(),()0,(
,~),~(),()~,(~),~(),~()~,~(21),(
0
0*
==
−−−=∂
∂∫∫
∞
tvnvnvn
vdtvntvnvvvdtvvntvnvvvttvn v
vββ
• Integro-Differential Equation
• Simple Monodisperse Coagulation (Hinds, 1982)- Particles are monodisperse, contact one another, grow slowly.
• Polydisperse Coagulation- Governed by diffusion of particles to the surfaces of other particles
Augmentation Term Depletion Term
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Techniques For Solving Coagulation Techniques For Solving Coagulation EquationsEquations
• J-space Transformation (Yom and Brock, 1984)• Asymptotic solution (Pilinis and Seinfeld, 1987)• Discrete method (Tambour and Seinfeld, 1980)• Moment method (Williams and Loyalka, 1991; McGraw, 1997)• Parametrized Representation (Whitby, 1985)• Similarity solution (Friedlander and Wang, 1966)• Direct simulation by Monte Carlo method
(Kruis et al., 2000; Maisels et al., 1999)
•• SemiSemi--implicit Finiteimplicit Finite--Difference Scheme (Jacobson Difference Scheme (Jacobson et alet al., 1994) ., 1994) •• Most GenericMost Generic
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kkkkj
jjkk
k
jjjkjjk
k CCCCktJCCCCtC
1,1111,11
,
1
1, )()(
21 ββδββ −++−=
∂∂
−−
∞
=
−
=−− ∑∑
COAGULATION NUCLEATION CONDENSATION
GOVERNING EQUATION
The evolution of PM size distribution due to coagulation, nucleation and condensation is represented by the discrete
dynamical equation:
Ck= time dependent number concentration (No./cm3) of particles of volume vk (cm3)
β= coagulation kernel (cm3 No.-1 s-1) of two colliding particlesJ(t) = Nucleation rate
δδδδ = Kronecker delta with a value of 1 for the kth bin of volume vk; and 0 otherwise
(Sienfeld and Pandis, 1997)
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GOVERNING EQUATION
( ) RatioDilutionCttCft
CCtvktJtvCCvftCvCv
BN
jjk
tjjkkji
k
j
tk
tkkk
k
i
tj
tiijikji
tkk
tkk
1
11
)(()(
11,,,,
1
11
111,1
1
1
1,,,
1
∆+−∆+
∆+∆+
∆+
=
∑
∑ ∑
=
=
+−
+−
−
=
+
+
ββ
βδβ
To account for the simultaneous effects of nucleation, coagulation, and condensation the general formula for volume-conserving, semi-implicit equation can be solved (Jacobson et al. , 1994; Kim et al., 2001) to predict the concentration variation of PM in the exhaust plume of a diesel truck traveling at highway speeds:
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90 ft (27.4m)
30ft(9.1m)
60ft(18.3m)
28 ft (8.43m)
13ft(4.0m)
Wind Deflector(drag reducing airshield)
SIMULATION CONDITIONSSIMULATION CONDITIONS
• Class-8 tractor heavy-duty diesel truck (330 hp) in a wind tunnel discretized using approx. 500,000 hexahedral and tetrahedral control volumes (cells).
• Steady state operation at 55 mph• Exhaust exit velocity 29.8 m/s, Wind velocity 24.6 m/s• Standard k-εεεε turbulence closure and finite rate chemistry/eddy dissipation• Background concentration of CO2 (640 ppm), raw exhaust (60,000ppm)
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Computational Grid of the Truck Inside the Wind Tunnel
28 ft (8.43m)
13ft(4.0m)
Wind Deflector
A B C D
Flow Direction
90 ft (27.4m)60ft(18.3m)
30 ft(9m)
Locations
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Filled Contours of Relative Concentration of CO2 Inside the Wind Tunnel
• Re-circulation region below wind deflector
ionConcentratBackgroundCionConcentratBackgroundxyxCRc
o __),,(
−−=
Relative Concentration (Rc) is defined as the ratio of the CO2 concentration at a given location (x,y,z) to the raw exhaust CO2 concentration (C0)
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Contours of Relative Concentration of CO2 Inside the Tunnel on a Plane Passing Through Exhaust Pipe
• Center of plume downward- wake effect
28 ft (8.43m)
Exhaust Pipe
ionConcentratBackgroundCionConcentratBackgroundxyxCRc
o __),,(
−−=
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Relative Concentration of CO2 Along the Centerline of Plume
• Rc of CO2 dropped rapidly in 100"-small flow rate of exhaust
0
0.05
0.1
0.15
0.2
0.25
0.3
0 100 200 300 400 500
Distance X (in)Re
lativ
e C
once
ntra
tion
CFD- ModelExper. Data
(2.54m) (5.08m) (7.62m) (10.16m) (12.7m)
ionConcentratBackgroundCionConcentratBackgroundxyxCR
oc −
−= ),,(
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Velocity Vectors Showing Recirculation Near the Exhaust Pipe of the Tunnel
• Significant recirculation of the flow below wind deflector• Dispersion coefficient not constant
15m/s
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COCO22 Concentration Inside the Plume Perpendicular Concentration Inside the Plume Perpendicular to the Centerlineto the Centerline
•Asymmetry of plume - presence of wall• Re-circulation region (undercarriage of flow)• Symmetry of the plume- at large distances downstream
X= 20” (0.51 m)Downstream of Plume
X=40”(1.02 m)
X=120”(3.05 m)
X=80”(2.03 m)
-30
-20
-10
0
10
20
30
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
Dis
tanc
e (in
ches
/met
ers)
(0.25m)
(0.51m)
(0.76m)
(-0.25m)
(-0.51m)
(-0.76m)
X= 20” (0.51 m)Downstream of Plume
X=80”(2.03 m)
X=120”(3.05 m)
X=40”(1.02 m)
CO2 Concentration (ppm)
— CFD model� Experimental data
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1
10
100
1000
0 100 200 300 400 500 600
Distance X (in)
Dilu
tion
Rat
io
CFD- ModelExper. Data
(2.54m) (5.08m) (7.62m) (10.16m) (12.7m) (15.24m)
Dilution Ratio of CODilution Ratio of CO22 along the Centerline of Plumealong the Centerline of Plume
•Increased rapidly- higher flow rate of air
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Temperature Along the Centerline of PlumeTemperature Along the Centerline of Plume
• Rapidly decreased-dilution increased- 100 inches (75 oF)
70
80
90
100
110
120
130
140
150
0 100 200 300 400 500 600
X Distance From Stack (in)
Tem
pera
ture
(oF)
CFD- ModelTest Data
(2.54 m) (5.08m) (7.62 m) (10.16 m) (12.7 m) (15.24 m)
(27oC)
(49oC)
(43oC)
(38oC)
(32oC)
(21oC)
(60oC)
(54oC)
(65oC)
Figure 4.8 Variation of Temperature along the Centerline of Plume
Distance from the stack (in)
Tem
pera
ture
(oF)
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Relative Concentration of CO2 near the Moving Gantry inside Wind Tunnel
• Geometry was re-discretized to account forthe effect of gantry
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Variation of CO2 Concentration inside the PlumePerpendicular to the Centerline near Moving Gantry
• Better agreement with experimental data than simulationwithout the gantry at 20 inches downstream from stack
• Will not affect significantly far away due to high dilution ratio
(in.)
(0.25 m)
(0.51 m)
(-0.25 m)
(-0.51 m)-20
-15
-10
-5
0
5
10
15
20
0 2000 4000 6000 8000 10000 12000
Dis
tanc
e (in
ches
/met
ers)
CFD modelExperimental Data
CO2 Concentration (ppm)
(0.53m)
(-0.53m)
(0.25m)
(-0.25m)
(0.13m)
(-0.13m)
(-0.38m)
(0.38m)
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COMPUTATIONAL GRID OF TRACTOR-TRAILER
• Traditionally, the trucks are accompanied by the trailers.• Tractor-trailer recreated using FLUENT software.• Same velocity and temperature boundary conditions.
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Contours of Relative Concentration of CO2 on Tractor-Trailer
• Longer plume for the trailer configuration• Plume remained attached to the body.
(mix with ambient slowly)• Plume decayed slowly in the presence of trailer.
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Effect of Relative Humidity on Nucleation and Nucleus Size
1.0E+10
1.0E+11
1.0E+12
1.0E+13
0 100 200 300 400 500 600Time (mili-sec)
0.83
0.88
0.93
0.98
1.03
Nuc
leus
Dia
met
er (n
m)
RH=0.35 RH=0.55
Nucleation
Rate
NucleationRate
NucleusDiameter
Nucleus
Diameter
Nuc
leat
ion
Rate
(No.
cm
-3s-1 )
• Nucleus diameter decreased with increasing relative humidity• Nucleation rate increased with increasing relative humidity• At lower relative humidity, more molecules required for particle to be stable.
(tendency for particles to evaporate)
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Particle Concentration Variation With Particle Diameterat a Location 20”
• CMD shifted to the right from about 10 nm to 60 nm with condensation effects.• Condensation essentially increased the nucleus radius.• Particles with high diffusion coefficients diffused to large particles.• Condensation effects are important near the stack (rapid dilution taking place).
1.0E+04
1.0E+05
1.0E+06
1.0E+07
1.0E+08
1 10 100 1000
nucleation+coagulation
nucleation+coagulation+condensation
Location Ax=20”
dN/d
log(
Dp)
(N
o. c
m-3
)
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Particle Concentration Variation with Diameter at Different Locations
1.0E+03
1.0E+04
1.0E+05
1.0E+06
1.0E+07
1 10 100 1000
dN/d
log(
Dp)
(N
o. c
m-3
)
Diameter Dp (nm)
Location Bx=80”Location C
x=200”
Location Dx=337”
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CONCLUSIONS• FLUENT k-εεεε
model• Predicted the plume dispersion that included the effects of
turbulent mixing, convection, diffusion, and temperature variations, and species transport
• Agreed well with the concentration of CO2 experimental data• Relative concentration CO2 dropped rapidly from 1 to 100 within
a distance of 100 inches (due to small exhaust flow rate mixed with ambient)
• Center of the plume pointing downward (due to wake effects)• Numerical model showed a significant recirculation
(Dispersion coefficients are not constant in CFD model)• CFD models could be used to predict the dispersion of pollutant, and
to evaluate the impact of emission of pollutant.
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CONCLUSIONS (continued)
• Nucleation rates in the formation of PM were calculated from thefuel sulfur content, F/A Ratio, and exhaust flow rate
• Nucleus diameter decreased by 30% from 10% to 90% relative humidity• Number rate increased by a factor of 6 from 10% to 90% relative
humidity•Condensation effects were very important near the exhaust stack
where rapid dilution is taking place.•PM count median diameter increased from 10 to 60 nm with
condensation effects.• A good agreement was seen between the model predictions and the
experimental data at four different locations.