1. A +2 B R Rate constant, k=56.1 L/mol min The reaction takes place between two gases that mix at the entrance of PFR reactor. 7.1 L/min, latm, 86° C 50 %A, 50% inert latm, 86C Vn CA CAD VPFR Св 14.2 L/min, latm, 86° CR Inert Inert The first gas enters a flow rate of 7.1 L/min contains 50% A and 50% inert in moles at latm, 86° C. The second gas enters at a flow rate of 14.2 L/min contains Bat 1 atm, 86 C.
1. A +2 B R Rate constant, k=56.1 L/mol min The reaction takes place between two gases that mix at the entrance of PFR reactor. 7.1 L/min, latm, 86° C 50 %A, 50% inert latm, 86C Vn CA CAD VPFR Св 14.2 L/min, latm, 86° CR Inert Inert The first gas enters a flow rate of 7.1 L/min contains 50% A and 50% inert in moles at latm, 86° C. The second gas enters at a flow rate of 14.2 L/min contains Bat 1 atm, 86 C.
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:1. A +2 B R
Rate constant, k=56.1 L/mol min
The reaction takes place between two gases that mix at the entrance of PFR reactor.
7.1 L/min, latm, 86°C
50 %A, 50% inert
latm, 86°C
Vo
CAD
CA
14.2 L/min, latm, 86°
Сво
VPFR
Св
Inert
CR
Inert
The first gas enters a flow rate of 7.1 L/min contains 50% A and 50% inert in moles at
latm, 86° C. The second gas enters at a flow rate of 14.2 L/min contains Bat 1 atm, 86 C.
86 C and 1 atm. The gases are ideal.
Both gases are mixed instatenously at the reactor at
a)Calculate the volumetric flow rate Vo, CAo. CHo at reactor inlet.
b) What is the limiting reactant
c) Calculate EA
d) If at reactor exit, CR=5.5 x10* mol/L, what is the conversion of limiting reactant
e) If at the reactor exit, conversion of limiting reactant is 60% calculate PFR volume and
VE
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