The gas-phase reversible reactionAZBis carried out under high pressure in a packed-bed reactor with pressure drop. The feed consists of bothinerts I and Species A with the ratio of inerts to the species A being 2 to 1. The entering molar flow rate of A is 5 mol/min at a temperature of 300 K and a concentration of 2 mol/dm³. Work this problemin terms of volume. Hint: V = W/PB, ₁ = PBA ·Additional information:FA0 = 5.0 mol/minΑΟCao =2mol/dm3C=2 CAOC₁ =18 cal/mol/KCPA= 160 cal/mol/KE = 10,000 cal/molAHRX = -20,000 cal/molRxKc = 1,000 at 300 KCPB = 160 cal/mol/KTo = 300 KT₁ = 300 Kk₁ = 0.1 min¯¹ at 300 KUa = 150 cal/dm³/min/KTao = 300 KV = 40 dm³-3apb=0.02 dm¯Coolantmc = 50 mol/minCP Cool= 20 cal/mol/KPB = 1.2 kg/dm³(a) Adiabatic Operation. Plot X, Xê, p, T, and the rate of disappearance as a function of V up toV = 40 dm³. Explain why the curves look the way they do.

Answered: Image /qna-images/answer/32b63c17-b031-4cc9-9f06-72652422e376.jpg

Answered: a) Adiabatic Operation. Plot X, Xe, p,…

a) Adiabatic Operation. Plot X, Xe, p, T, and the rate of disappearance as a function of V up to V = 40 dm³. Explain why the curves look the way they do.

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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Question

The gas-phase reversible reaction
AZB
is carried out under high pressure in a packed-bed reactor with pressure drop. The feed consists of both
inerts I and Species A with the ratio of inerts to the species A being 2 to 1. The entering molar flow

rate of A is 5 mol/min at a temperature of 300 K and a concentration of 2 mol/dm³. Work this problem
in terms of volume. Hint: V = W/PB, ₁ = PBA ·
Additional information:
FA0 = 5.0 mol/min
ΑΟ
Cao =2mol/dm3
C=2 CAO
C₁ =18 cal/mol/K
CPA
= 160 cal/mol/K
E = 10,000 cal/mol
AHRX = -20,000 cal/mol
Rx
Kc = 1,000 at 300 K
CPB = 160 cal/mol/K
To = 300 K
T₁ = 300 K
k₁ = 0.1 min¯¹ at 300 K
Ua = 150 cal/dm³/min/K
Tao = 300 K
V = 40 dm³
-3
apb=0.02 dm¯
Coolant
mc = 50 mol/min
CP Cool
= 20 cal/mol/K
PB = 1.2 kg/dm³
(a) Adiabatic Operation. Plot X, Xê, p, T, and the rate of disappearance as a function of V up to
V = 40 dm³. Explain why the curves look the way they do.

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