P2-10c OEQ (Old Exam Question). The curve shown in Figure 2-1 is typical of a reaction carried out isothermally, and the curve shown in Figure P2-10c (see Example 11-3) is typical of a gas-solid catalytic exothermic reaction carried out adiabatically. FAO -r'A (kg catalyst) 60 50 40 30- 20 T 10 T T .2 A B+C .4 .6 Conversion, X .8 1 1.0

Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
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P2-10c OEQ (Old Exam Question). The curve shown in Figure 2-1 is
typical of a reaction carried out isothermally, and the curve shown in
Figure P2-10c (see Example 11-3) is typical of a gas-solid catalytic
exothermic reaction carried out adiabatically.
60
50
40
FA (kg catalyst) 30
20
10
.2
A⇒B+C
.4
256
.6
Conversion, X
.8
1.0
Transcribed Image Text:P2-10c OEQ (Old Exam Question). The curve shown in Figure 2-1 is typical of a reaction carried out isothermally, and the curve shown in Figure P2-10c (see Example 11-3) is typical of a gas-solid catalytic exothermic reaction carried out adiabatically. 60 50 40 FA (kg catalyst) 30 20 10 .2 A⇒B+C .4 256 .6 Conversion, X .8 1.0
Elements of Chemical Reaction Engineering, 6th Edition
geneous reaction.
Figure P2-10c Levenspiel plot for an adiabatic exothermic hetero-
1. Assuming that you have a fluidized CSTR and a PBR containing
equal weights of catalyst, how should they be arranged for this adia-
achieve 80% conversion of A.
batic reaction? Use the smallest amount of catalyst weight to
2. What is the catalyst weight necessary to achieve 80% conversion in
a fluidized CSTR? (Ans: W = 23.2 kg of catalyst)
conversion?
3. What fluidized CSTR weight is necessary to achieve 40%
4. What PBR weight is necessary to achieve 80% conversion?
5. What PBR weight is necessary to achieve 40% conversion?
6. Plot the rate of reaction and conversion as a function of PBR cata-
lyst weight, W.
Additional information: FÃO = 2 mol/s.
O
00
257
Fluidized
catalyst
pellets
Transcribed Image Text:Elements of Chemical Reaction Engineering, 6th Edition geneous reaction. Figure P2-10c Levenspiel plot for an adiabatic exothermic hetero- 1. Assuming that you have a fluidized CSTR and a PBR containing equal weights of catalyst, how should they be arranged for this adia- achieve 80% conversion of A. batic reaction? Use the smallest amount of catalyst weight to 2. What is the catalyst weight necessary to achieve 80% conversion in a fluidized CSTR? (Ans: W = 23.2 kg of catalyst) conversion? 3. What fluidized CSTR weight is necessary to achieve 40% 4. What PBR weight is necessary to achieve 80% conversion? 5. What PBR weight is necessary to achieve 40% conversion? 6. Plot the rate of reaction and conversion as a function of PBR cata- lyst weight, W. Additional information: FÃO = 2 mol/s. O 00 257 Fluidized catalyst pellets
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