reactor should be maintained in excess of 4 to minimize the chance of other unwanted side reactions. Using this information, and assuming that both A and G are expensive, do the following: 1. Draw a preliminary process flow diagram identifying the main unit operations (reactors, compressors, pumps, heat exchangers, and separators), and identify the recycle structure of the process. 2. Justify the methods used to recycle A and G. 3. What unit operations do you suggest for your separators? Justify your choices. 4. How would your PFD change if the price of feed material G were very low?

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
Problem 1.1P
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reactor should be maintained in excess of 4 to minimize the
chance of other unwanted side reactions. Using this
information, and assuming that both A and G are expensive,
do the following:
1. Draw a preliminary process flow diagram identifying the main unit
operations (reactors, compressors, pumps, heat exchangers, and
separators), and identify the recycle structure of the process.
2. Justify the methods used to recycle A and G.
3. What unit operations do you suggest for your separators? Justify your
choices.
4. How would your PFD change if the price of feed material G were very
low?
Transcribed Image Text:reactor should be maintained in excess of 4 to minimize the chance of other unwanted side reactions. Using this information, and assuming that both A and G are expensive, do the following: 1. Draw a preliminary process flow diagram identifying the main unit operations (reactors, compressors, pumps, heat exchangers, and separators), and identify the recycle structure of the process. 2. Justify the methods used to recycle A and G. 3. What unit operations do you suggest for your separators? Justify your choices. 4. How would your PFD change if the price of feed material G were very low?
Consider the following process in which liquid feed material
A (normal BP of 110°C) is reacted with gaseous feed material
G to produce main product C and byproducts R and S via the
following reactions:
A+G+C+S
G+C+R
Both feeds enter the process at ambient temperature and
pressure. Both reactions occur in the gas phase at moderate
temperature and pressure (250°C and 10 bar). The normal
boiling points of G, S, and C are less than -120°C. Byproduct
R has a normal boiling point of 75°C and is highly soluble in
water. Product C is very soluble in water but G and S are
insoluble. The single-pass conversion through the reactor is
low for feed A, and the ratio of G to A in the feed to the
Transcribed Image Text:Consider the following process in which liquid feed material A (normal BP of 110°C) is reacted with gaseous feed material G to produce main product C and byproducts R and S via the following reactions: A+G+C+S G+C+R Both feeds enter the process at ambient temperature and pressure. Both reactions occur in the gas phase at moderate temperature and pressure (250°C and 10 bar). The normal boiling points of G, S, and C are less than -120°C. Byproduct R has a normal boiling point of 75°C and is highly soluble in water. Product C is very soluble in water but G and S are insoluble. The single-pass conversion through the reactor is low for feed A, and the ratio of G to A in the feed to the
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