session 3, unit 5 dispersion modeling. the box model description and assumption box model for line...
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![Page 1: Session 3, Unit 5 Dispersion Modeling. The Box Model Description and assumption Box model For line source with line strength of Q L Example](https://reader036.vdocuments.mx/reader036/viewer/2022070403/56649f2b5503460f94c45696/html5/thumbnails/1.jpg)
Session 3, Unit 5
Dispersion Modeling
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The Box Model
Description and assumptionBox model
For line source with line strength of QL
Example
Au
MC AA
WHu
LQC LA
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A More Realistic but Simple Approach
Basic assumption: Time averaged concentration is
proportional to source strength It is also inversely proportional to
average wind speed
It follows a distribution function that fits normal distribution (Gaussian function)
QC
uC
1
2
2
2
)(exp
2
1)(
ax
xp
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A More Realistic but Simple Approach
Resulting dispersion equation
22
2
2
2
2
2
1exp
2
2
)(exp
2
1
2exp
2
1
zyzy
zzyy
zzy
u
QC
Or
zzy
u
QC
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Eulerian Approach
Fixed coordinate systemContinuity equation of concentration ci
Wind velocities uj consist of 2 components: Deterministic Stochastic
),(),,,( 1
2
tSTccRxx
cDcu
xt
ciNi
jj
iiij
j
i x
'jjj uuu
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Eulerian Approach
u’j random ci random No precise solutionEven determination of mean concentration runs into a closure problem
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Eulerian ApproachAdditional assumptions/approximations Chemically inert (Ri=0) K theory (or mixing-length theory)
Where Kjk is the eddy diffusivity, and is function of location and time
Molecular diffusion is negligible The atmosphere is incompressible
Resulting semiempirical equation of atmospheric dispersion
k k
jkj x
cKcu ''
0
j
j
x
u
),( tSx
cK
xx
cu
t
c
jjj
jj
j x
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Eulerian ApproachSolutions An instantaneous source (puff)
tK
z
tK
y
tK
tux
KKKt
Stzyxc
zzyyxxzzyyxx
444
)(exp
)()(8),,,(
222
21
23
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Eulerian Approach A continuous source
Plume is comprised of many puffs each of whose concentration distribution is sharply peaked about its centroid at all travel distances
Slender plume approximation – the spread of each puff is small compared to the downwind distance it has traveled
Solution
zzyyzzyy
K
z
K
y
x
u
xKK
qzyxc
22
21 4exp
)(4),,(
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Lagrangian ApproachConcentration changes are described relative to the moving fluid.A single particle A single particle which is at location x’ at
time t’ in a turbulent fluid. Follow the trajectory of the particle, i.e. its
position at any later time. Probability that particle at time t will be in
volume element of x1 to x1+dx1, x2 to x2+dx2,
x3 to x3+dx3
1),(
),(),,,( 321321
xx
xx
dt
dtdxdxdxtxxx
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Lagrangian Approach
Ensemble of particles. Ensemble mean concentration
m
ii ttc
1
),(),( xx
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Lagrangian Approach
Solutions Instantaneous point source of unit
strength at its origin, mean flow only in x direction
Continuous source
)(2)(2)(2
)(exp)()()()2(
1),,,(
2
2
2
2
2
2
23 t
z
t
y
t
tux
ttttzyxc
zyxzyx
2
2
2
2
22exp
2),,(
zyzy
zy
u
qzyxc
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Eulerian vs. Lagrangian
Eulerian Fixed coordinate Focus on the statistical
properties of fluid velocities
Eulerian statistics are readily measurable
Directly applicable when there are chemical reactions
Closure problem – no generally valid solutions
Lagrangian Moving coordinate Focus on the statistical
properties of the displacements of groups of particles
No closure problem Difficult to accurately
determine the required particle statistics
Not directly applicable to problems involving nonlinear chemical reactions
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Eulerian vs. Lagrangian
Reconcile the solutions from the two approaches Instantaneous sources
Continuous sources
Limitation for both approaches Lack of exact solutions Solutions only for idealized stationary (steady state),
homogeneous turbulence Rely on experimental validation
tKtKtK zzzyyyxxx 2,2,2 222
u
xK
u
xKzz
zzyy
y
2,
222
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Physical Picture of Dispersion
Dispersion of a puff under three turbulence condition Eddies < puff Significant dilution Eddies > puff Limited dilution Eddies ~ puff Dispersed and distorted
Molecular diffusion vs. atmospheric dispersion (eddy diffusion)Instantaneous vs. continuousDescription of plumeTime averaged concentrations for continuous sources
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Gaussian Dispersion Model
Same as Lagrangian solutions For an instantaneous sources (a puff)
For a continuous source at a release height of H
)(2)(2)(2
)(exp)()()()2(
),,,(2
2
2
2
2
2
23 t
z
t
y
t
tux
ttt
Qtzyxc
zyxzyx
2
2
2
2
2
2
2
2
2
)(exp
2exp
2),,(
2
)(
2exp
2),,(
zyzy
zyzy
Hzy
u
qzyxcOr
Hzy
u
qzyxc
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Gaussian Dispersion Model
Ground reflection
Special cases Ground level receptor (z=0) Center line (y=0) Ground level source (H=0)
2
2
2
2
2
2
2
)(exp
2
)(exp
2exp
2),,(
zzyzy
HzHzy
u
qzyxc
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Gaussian Dispersion Model
Maximum ground level concentration and its location Graphical solution
Accuracy of the Gaussian dispersion model
2
2
2exp
1
zzy
H
q
uc
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Session 3, Unit 6
Dispersion Coefficients
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Factors Affecting σ
Wind velocity fluctuationFriction velocity u*
Monin-Obukhov length LCoriolis parameterMixing heightConvective velocity scaleSurface roughness
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Pasquill-Gifford Curves
Condense all above factors into 2 variables – stability class and downwind distanceChartsNumeric formulasAveraging time 3-10 minutes EPA specifies 1 hour
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Field Measurements
Problem 7.8