The gas phase reactions: A +B C -Ta = kịC,Cb ki = 0.8 L/mol/s T, = k2C: k2 =0.2 s C=D %3D are carried out in an isothermal, ideal PFR. Neglect pressure drop in the reactor. The feed (at 2 atm and 200 °C) is 40% A, 40% B, 20% inerts, and flows at 15 L/s. R= 0.082 L*atm/mol/K, a) If kz was doubled, how would that impact the reactor volume that is required to consume 35% of A? b) Using the original k2 value, calculate the reactor volume required to consume 35% of reactant A.

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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) The gas phase reactions:
A +B =C
-ra = kịC,Cb ki = 0.8 L/mol/s
T, = k2Ce
C= D
k2 = 0.2 s!
are carried out in an isothermal, ideal PFR. Neglect pressure drop in the reactor. The feed (at 2 atm and 200
°C) is 40% A, 40% B, 20% inerts, and flows at 15 L/s. R = 0.082 L*atm/mol/K.
a) If k2 was doubled, how would that impact the reactor volume that is required to consume 35% of A?
b) Using the original k2 value, calculate the reactor volume required to consume 35% of reactant A.
Transcribed Image Text:) The gas phase reactions: A +B =C -ra = kịC,Cb ki = 0.8 L/mol/s T, = k2Ce C= D k2 = 0.2 s! are carried out in an isothermal, ideal PFR. Neglect pressure drop in the reactor. The feed (at 2 atm and 200 °C) is 40% A, 40% B, 20% inerts, and flows at 15 L/s. R = 0.082 L*atm/mol/K. a) If k2 was doubled, how would that impact the reactor volume that is required to consume 35% of A? b) Using the original k2 value, calculate the reactor volume required to consume 35% of reactant A.
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