8. steady-state nonisothermal reactor design - cheric · pdf file8. steady-state nonisothermal...
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8. Steady-State Nonisothermal
Reactor Designo Energy Balance
- Overview of User Friendly Energy Balance Equations
- Manipulating the Energy Balance, ∆HRx
o Reversible Reactions
o Adiabatic Reactions
o Applications of the PFR/PBR User Friendly Energy Balance Equations
o Interstage Cooling/Heating
o Evaluating the Heat Exchanger Term
o Multiple Steady States
o Multiple Reactions with Heat Effects
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6. CSTR with Heat Effect I
May/12 2011 Spring 2
o Apply general energy balance to the CSTR at st st
0)( 0
1
00
XFTHTTCFWQ ARx
n
i
iPiiAs
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6. CSTR with Heat Effect II
May/12 2011 Spring 3
o Algorithm for CSTR design 1
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6. CSTR with Heat Effect III
May/12 2011 Spring 4
o Algorithm for CSTR design 2
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6. CSTR with Heat Effect IV
May/12 2011 Spring 5
o Algorithm for CSTR design 3
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6. CSTR with Heat Effect V
May/12 2011 Spring 6
o Given X ☞ Find T and V
☜ Linear progression of calc T ⇒ calc k ⇒ calc KC ⇒calc -rA ⇒ calc V
- Second order reaction in CSTR, adiabatically, acid-
catalyzed irreversible liquid-phase reaction at 300 K
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6. CSTR with Heat Effect VI
May/12 2011 Spring 7
o Given X ☞ Find T and V 2
(a) What CSTR reactor volume is necessary to achieve
80% conversion?
1. CSTR Design Equation:
2. Rate Law:
3. Stoichiometry:
4. Combine:
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6. CSTR with Heat Effect VII
May/12 2011 Spring 8
o Given X ☞ Find T and V 3
5. Determine T: adiabatic energy balance
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6. CSTR with Heat Effect VII
May/12 2011 Spring 9
o Given X ☞ Find T and V 3
5. Determine T: adiabatic energy balance
- Substituting for known values and solving for T
6. Solve for the Rate Constant (k) at T = 380 K:
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6. CSTR with Heat Effect VIII
May/12 2011 Spring 10
o Given X ☞ Find T and V 4
7. Calculate the CSTR Reactor Volume (V):
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6. CSTR with Heat Effect IX
May/12 2011 Spring 11
o Given V ☞ Find X and T
(b) What conversion can be achieved in a 1000 dm 3
CSTR? What is the new exit temperature?
1. CSTR Design Equation:
2. Rate Law:
3. Stoichiometry:
4. Combine:
![Page 12: 8. Steady-State Nonisothermal Reactor Design - CHERIC · PDF file8. Steady-State Nonisothermal Reactor Design o Energy Balance - Overview of User Friendly Energy Balance Equations](https://reader033.vdocuments.us/reader033/viewer/2022050813/5a7947e17f8b9a51548d89ee/html5/thumbnails/12.jpg)
6. CSTR with Heat Effect X
May/12 2011 Spring 12
o Given V ☞ Find X and T 2
More convenient to work with this equation in terms
of space time, rather than volume
5. Solve the Energy Balance for XEB as a function of T:
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6. CSTR with Heat Effect XI
May/12 2011 Spring 13
o Given V ☞ Find X and T 3
6. Solve the Mole Balance for X MB as a function of T:
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6. CSTR with Heat Effect XII
May/12 2011 Spring 14
o Given V ☞ Find X and T 4
7. Plot X EB and X MB :
0.87, 387 K
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6. CSTR with Heat Effect XIII
May/12 2011 Spring 15
o Given V ☞ Find X and T 5
(c) How would your answers to part (b) change, if the
entering temperature of the feed were 280 K?
0.75, 355 K
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6. CSTR with Heat Effect XIV
May/12 2011 Spring 16
o Given T ☞ Find X and V
☜ Linear progression of calc k ⇒ calc KC ⇒ calc X ⇒calc -rA ⇒ calc V
- First order reaction in CSTR, adiabatically, acid-
catalyzed irreversible liquid-phase reaction
- Also given k, E, CPA=CPB, ∆HRx , CAo, and vo
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6. CSTR with Heat Effect XV
May/12 2011 Spring 17
o Given T ☞ Find X and V 2
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6. CSTR with Heat Effect XVI
May/12 2011 Spring 18
o Given T ☞ Find X and V 3
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7. Multiple Steady States (MSS)
May/12 2011 Spring 19
o CSTR with Heat Effects
- For very large coolant rate, Ta is constant
- ∆CP = 0
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7. Multiple Steady States II
May/12 2011 Spring 20
o CSTR with Heat Effects 2
- In general
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7. Multiple Steady States III
May/12 2011 Spring 21
o CSTR with Heat Effects 3
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7. Multiple Steady States IV
May/12 2011 Spring 22
o CSTR with Heat Effects 4
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7. Multiple Steady States V
May/12 2011 Spring 23
o Heat of generation
- First-order liquid-phase reaction
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7. Multiple Steady States VI
May/12 2011 Spring 24
o Heat of generation
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※ Self Test
May/12 2011 Spring 25
o MSS for an Endothermic Reaction
- Can there be multiple steady states (MSS) for a
irreversible first order endothermic reaction?
Sol)
- For an endothermic reaction HRX is positive, (e.g.,
HRX = +100 kJ/mole).
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※ Self Test
May/12 2011 Spring 26
o MSS for an Endothermic Reaction 2
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※ Self Test 2
May/12 2011 Spring 27
o MSS for an Endothermic Reaction 2