2. Calculate the conversion and temperature leaving a 60 L adiabatic PFR. Plot the XA, Xe, and temperature as a function of reactor volume. Consider the reversible, exothermic, gas phase reaction 2A → B + C in a flow reactor. Pure A enters at 300 K, and the maximum operating temperature is 600 K. FA0 = 8 mol/min, Kc = 50 at 320 K, KA = 0.2 L/mol min at 400 K, EA = 12,000 cal/mol, vo = 2 L/min. Pressure drop is negligible. Species A Hi (273 K) -18 kcal/mol Ср 40 cal/mol K B -36 kcal/mol 40 cal/mol·K C -32 kcal/mol 40 cal/mol K
2. Calculate the conversion and temperature leaving a 60 L adiabatic PFR. Plot the XA, Xe, and temperature as a function of reactor volume. Consider the reversible, exothermic, gas phase reaction 2A → B + C in a flow reactor. Pure A enters at 300 K, and the maximum operating temperature is 600 K. FA0 = 8 mol/min, Kc = 50 at 320 K, KA = 0.2 L/mol min at 400 K, EA = 12,000 cal/mol, vo = 2 L/min. Pressure drop is negligible. Species A Hi (273 K) -18 kcal/mol Ср 40 cal/mol K B -36 kcal/mol 40 cal/mol·K C -32 kcal/mol 40 cal/mol K
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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Transcribed Image Text:2. Calculate the conversion and temperature leaving a 60 L adiabatic PFR. Plot the XA, Xe, and
temperature as a function of reactor volume.
Transcribed Image Text:Consider the reversible, exothermic, gas phase reaction 2A → B + C in a flow reactor. Pure A
enters at 300 K, and the maximum operating temperature is 600 K. FA0 = 8 mol/min, Kc = 50 at
320 K, KA = 0.2 L/mol min at 400 K, EA = 12,000 cal/mol, vo = 2 L/min. Pressure drop is
negligible.
Species
A
Hi (273 K)
-18 kcal/mol
Ср
40 cal/mol K
B
-36 kcal/mol
40 cal/mol·K
C
-32 kcal/mol
40 cal/mol K
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