graphical methods for reactive distillation - itcvicente/2reactivedist.pdf · graphical methods for...
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Graphical Methods for Reactive Distillation
Arthur W. WesterbergDept. of Chemical Engineering and
Institute for Complex Engineered SystemsCarnegie Mellon University
Pittsburgh, PA 15213
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Coworkers• Jae Woo Lee, my Ph.D. student (finished April, 2000)• Kristian Lien, Trondheim• Steinar Hauan (completed Ph.D. with Kristian, joined our
faculty in 1999)• Amy Ciric, University of Cincinnati
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History of reactive distillation• A few early papers• Industry often uses batch reactive distillation (pot with refluxed
trays above it and possibly below it)• Eastman’s methyl acetate process (1985) spurs real interest• Simulation companies added reaction to trays• Doherty and students discover very clever variable transforma-
tion - and start to discuss reactive azeotropes
• Attempts to aid finding if reaction can be feasible -- with trays, reflux, rxn equilibrium, 3 components
• Approach has been “simulate/optimize and see”• Hauan and Lien identify vector additive nature of reaction, mix-
ing, distillation
∞∞
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Outline• Why reactive distillation• Reaction, separation and mixing vectors, design in trans-
port space• Difference points• McCabe-Thiele diagram• Non-intuitive behavior• Ponchon-Savarit diagram• Examples
+ diluted ternary: MTBE+ quaternary (using projection): methyl acetate
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Why reactive distillationMethyl acetate process (Eastman Chemicals, ~1985)• 1 reactor and 6 separation devices ==> 1 reactive extrac-
tive distillation column• Costs drop to 16% of previous process (not to 95%)
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Reaction, separation and mixing vectorsExamining processes in “composition” space
A B
C
a
reaction
mixing
C <--> A + B
Direction depends on physics, length
on design
residuecurve
mixing pt separation
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ExampleSeparation
• set by design and operation
• If , then direction set by vapor-liquid equilib-rium
Mixing• Mixing is along the line joining the two mix points• Length depends on quantities selected to be mixed.
tdd x V
M----- x y–( )⋅=
VM-----
x y–( ) x Kx–=
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Useful geometry in “transport space”
Straight linesGiven a set of balances of the form
If
Then we see
au bv cw+=
uii∑ vi
i∑ wi
i∑= =
a b c+=
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And
i.e., points satisfying these balances are on a straight line in this vector space
Augmenting this spaceAdding another dimension that satisfies
leads to straight lines in this augmented space
u bb c+------------ v⋅ c
b c+------------ w⋅+ α v⋅ 1 α–( ) w⋅+= =
aunew bvnew cwnew+=
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Consider the top of a columnComposition space
Augmented with molar enthalpy
Thus balances in a composition space and in an augmented molar enthalpy + composition space both give rise to points on straight lines. (Is there a way to include momentum?)
D
LnVn+1
QC
Vn 1+ yn 1+⋅ Ln xn⋅ D xD⋅+=
Vn 1+ Hn 1+⋅ Ln hn⋅ D hD
QC
D-------+
⋅+=
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Difference points
Sum of flows• Vn+1 is the mixing of two positive flows, Ln and D
• The lever rule indicates relative amounts
D (~pure A)
LnVn+1
B
C
LnVn+1
mat’l balance
Vn+1 = Ln + D
DA
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Difference of flows, extractive distillation
D
LnVn+1
Vn+1 = Ln + D - S = Ln + ∆
where ∆ = D - SS
Ln
Vn+1mat’l balance
S
∆>0increasing
S
D
∆<0
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Reaction “flow” and “composition”A + B <--> C <==> -1 A -1 B + 1 C = 0; νT =[-1, -1, 1]
• Flow: Everytime reaction “turns over” (ξ mol/s), we lose one mol/s of material
flow = (-1 + (-1) + 1) ξ = −1 ξ (mol/s) = νT ξ
• Composition: We lose one mol/s of A, one mole of B and gain one mole of C
composition =
Note: composition sums to one but lies outside composition triangle
1–1–1
νT( )⁄
1
11–
=
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The reaction difference pointD
LnVn+1
Vn+1 = Ln + D - S - νΤξ
= Ln + ∆ - νΤξ S
LnVn+1mat’l
S
∆
increasingS
D
νΤξ = −1ξ
A + B <--> C
balance
111–
varies with S varies with ξ
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Steering tray compositions in column
S
Ln
D
Vn
Vn+1
LnVn+1
Vn
n
n+1Vn+1
downthe
column
Note: altered material balance can maketemperature changes reverse in column
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Binary diagrams• Reactions possible
+ IsomerizationB --> A (A is more volatile)
+ DecompositionB --> 2A
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Review of McCabe-Thiele Diagram• y vs. x plot for binary column• Can be used to design number of stages required in column• Major use - for practiced engineers, to develop insights into
column behavior
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Quick review
1. Plot equilibrium curve2. Add 45 degree line (y=x
y
x0
0
1.0
1.0
12
line)
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xDxB xF
3. Indicate feed, bottoms, and distillate compositions
D, xD
B, xB
F, xF
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q-line
xDxB xF
sat’d liq
sat’d vap
two phase3. Plot q-line
+ intersection of operat-ing lines
+ function of thermal condition of feed
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q-line
xDxB xF
V L
D
y LV--- x D
V---- xD+=
4. Plot top operating line (based on mat’l balance)
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q-line
xDxB xF
5. Plot bottom operating line (connects xB on 45 degree line to point where top line inter-sects q-line -- also based on material bal-ance)
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123
45
6
7
8
y3
x3
y4
y3
y4 x3
D q-line
xDxB xF6. Step off stages
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Effect of reaction in top of columnMaterial balance with reaction (-B + A = 0) for species A only
Vy = Lx + DxD -ξ , where
Let y = x and solve(V-L)x = (D-νTξ)x = Dx
= D(xD - )
or on 45 degree line where y=x, we have
Thus intersection shifts down by
D
LnVn+1
νAξ
νA υA 1=
ξD----
x xDξD----–=
ξD----
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Typical values (flows in mol/time)B A
(Reactant) (Product)ν -1 1xD 0.99
Feed 50 50ξ Bott Dist diff pt5 45 55 0.899
25 25 75 0.65745 5 95 0.51650 0 100 0.490
B A(Reactant) (Product)
ν -1 1xD 0.99
Feed 90 10ξ Bott Dist diff pt9 81 19 0.516
45 45 55 0.17281 9 91 0.10090 0 100 0.090
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Typical values (cont’d)
Note, we get negative values here
B A(Reactant) (Product)
ν -1 1xD 0.99
Feed 100 0ξ Bott Dist diff pt
10 90 10 -0.01050 50 50 -0.01090 10 90 -0.010
100 0 100 -0.010
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MT plot: 1,4 dicloro-2 butene--> 1,2 dicloro-3 butene
xD xB zF0.0
0.2
0.4
0.6
0.8
1.0
0.0 0.2 0.4 0.6 0.8 1.0 xDCL3B
yDCL3B
D B
1
7D?
x 4D −
D?
x 3D −
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Short quizGiven
B --> AA is the light component
Should you put reaction in top or bottom section of the column?
here?
or here?
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Arguments for bottom• Heavy reactant will go down, react in lower section, and
form light product which is driven up the column• Kinetics may be enhanced by hotter temperatures in the
bottom• Reaction equilibrium may be shifted -- higher temperatures
are better for endothermic (bottom) and worse for extho-thermic (top)
The first observation above suggests how sep-aration will be affected
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Reaction in top section makes separation easier
yP1
xP1
12
3
4
5
67
xD xB
Operating lines
8
zF
D?
x 3D −
D?
x 2D −
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Reaction in bottom section makes separation harder
yP1
xP1
123
xD xB
Operating lines
Pinch point
zF
B?
x 1sB
+−B?
x sB −
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Arguments for bottom• Heavy reactant will go down, react in lower section, and
form light product which is driven up the column • Kinetics may be enhanced by hotter temperatures in the
bottom• Reaction equilibrium may be shifted -- higher temperatures
are better for endothermic (bottom) and worse for extho-thermic (top)
The first insight appears to be an invalid insight
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Breaking an azeotrope
0.2 0.4 0.6 0.8 1.0
0.2
0.4
0.6
0.8
1.0
zF
xB
xD
yA
xA
2 1
3
4
5
6
7
δ2
δ3
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1
2
3
4
5
6
7
x1=0.91,L1=962.5
xD=0.96,D=810
y1=0.96,V1=1782.5
x0, L0=972.5
y2=0.93,V2=1772.5
x2=0.86,L2=832.1
y3=0.76,V3=1642.1
ξ2=240
x3=0.70,L3=602.7
y4=0.27,V4=1412.7
ξ3 - ξ2 =572
x4=0.34,L4=617.4
y5=0.125,V5=1427.4
x5=0.20,L5=623.6
y6=0.064,V6=1433.6
x6=0.12,L6=965.6
y7=0.107,V7=775.6
xB=0.18,B=190
zF=0.0, F=1000
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Ponchon-Savarit DiagramxDxB
Hv,sat
hL,sat
yB
1(zF, hF)
xP1, yP1
hD+qchrR,4
hrR,3
hB-qB
qR
8
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Ex: MeOH + IBUT <==> MTBE
MeOHExcess IBUT
MTBE
IBUT
Why did industry settle on this design?
catalyst on ionexchange resin
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Reaction difference point (MeOH + IBUT <==> MTBE)
MeOH (128.8)
MTBE (136.8)
AZ (121.7)
IBUT (62.0)
AZ (60.1)
δr111–
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Two distillation regions
MeOH (128.8)
MTBE (136.8)
AZ (121.7)
IBUT (62.0)
AZ (60.1)
I
II
residue curve
B D
F
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Liquid and vapor (rxn) equilibrium curves
MeOH
MTBE IBUT
I
II
vapor equil
liquid equilresidue curve
curve
curve
x y*(x)
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Reactive diff pt and lever rule ==> little reaction in bottom
MeOH
MTBE IBUT
δr
infeasible
negative
positiveξ
B
Ln = Vn+1 + ∆∆ = B + ξ
B
Ln between Vn+1and ∆
Want ξ positive==> ∆ positive
Cannot be muchreaction in
bottom
In bottom
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Nonreactive bottom section required
MeOH (128.8)
MTBE (136.8)
AZ (121.7)
IBUT (62.0)
AZ (60.1)
Lowest trays+ nonreactive+ in region II
to recover pure MTBE
II
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Major reaction possible and needed in top section
MeOH
MTBE IBUT (62.0)
AZ (60.1)
δr
∆
D
ξ
(excess IBUT)Vn+1 = Ln + ∆
∆ = D + ξ
D
with no rxn
with rxn
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A “split” lever rule yn+1Vn+1 =xnLn + xDD + (νR-νP)2ξ
==> x∆∆ = xDD + (νR-νP)2ξ
BA
C
νR2ξ
νP2ξ
xDD
νP
νR
xD
D
2ξ
∆
xnLnyn+1Vn+1
δr
νT = -1-1+2 = 0
A+C <==> 2B
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Ex: Methyl acetate, MeOH + AC = MA + W
MA
W
AC
MeOH
2 moles produce 2 moles so reaction point at infinity
A way to handle more than three components
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Four components - use following projection• Set acetic acid concentration to a low value (say 5%) and fix it• Map to acetic acid free basis• All equations transform nicely• On acetic acid free basis
+ MeOH = MA + W+ reaction difference point moves to finite location
Question: Why does the amount of reaction that can occur in the column decrease with large reflux ratios? This is counterintuitive.
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Geometry
1.00.80.60.40.20.0
1.0
0.8
0.6
0.4
0.2
TMd~
Bx~
Dx~
nx~
1n+y~Ftx~
MAM
W
* *1
34
2 *
n1n yy ~~ =+
ξn
Ln
D
Vn+1
~
~
Vn+1~
Ln~ + ξn = + D
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Projection of equilibrium vapor composition
AC
W
M
MA
yn=yn+1
AC
W
M
MA
yn=yn+1
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Maximum in conversion vs. reflux ratio
0
20
40
60
80
100
1 2 3 4 5 6 7 8
Molar reflux ratio
Ove
rall
con
vers
ion
(%
)
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Conclusions• Why reactive distillation• Reaction, separation and mixing vectors, design in trans-
port space• Difference points• McCabe-Thiele diagram• Non-intuitive behavior• Ponchon-Savarit diagram• Examples
+ diluted ternary: MTBE+ quaternary (using projection): methyl acetate