The elementary isomerization exothermic reaction B is carried out isothermally at 400 K in a PBR in which pressure drop plays a role, with a = 0.001 kg-¹. Currently, 50% conversion is achieved. The equilibrium constant at this temperature is 3.0. (a) For a fixed mass flow ratem, if the reactor diameter is increased by a factor of 4, the conversion will (1) X>05 (2) X<0.5 (3) X=0.5 (4) insufficient information to tell. (b) For a fixed mass flow rate m, the equilibrium conversion is (1) X₂=0.5 (2) X, = 0.667 (3) X, = 0.75 (4) insufficient information to tell

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
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P5-4, Multiple Choice. In each of the cases below, (a) through (e), you will need to explain why you chose
the answer you did.
The elementary isomerization exothermic reaction
AZ
is carried out isothermally at 400 K in a PBR in which pressure drop plays a role, with a = 0.001 kg-'.
Currently, 50% conversion is achieved. The equilibrium constant at this temperature is 3.0.
(a) For a fixed mass flow rate m, if the reactor diameter is increased by a factor of 4, the conversion
will
(1) X > 0.5 (2) X < 0.5 (3) X = 0.5 (4) insufficient information to tell.
(b) For a fixed mass flow rate i , the equilibrium conversion is
(1) X, = 0.5 (2) X, = 0.667 (3) X, = 0.75 (4) insufficient information to tell
Transcribed Image Text:P5-4, Multiple Choice. In each of the cases below, (a) through (e), you will need to explain why you chose the answer you did. The elementary isomerization exothermic reaction AZ is carried out isothermally at 400 K in a PBR in which pressure drop plays a role, with a = 0.001 kg-'. Currently, 50% conversion is achieved. The equilibrium constant at this temperature is 3.0. (a) For a fixed mass flow rate m, if the reactor diameter is increased by a factor of 4, the conversion will (1) X > 0.5 (2) X < 0.5 (3) X = 0.5 (4) insufficient information to tell. (b) For a fixed mass flow rate i , the equilibrium conversion is (1) X, = 0.5 (2) X, = 0.667 (3) X, = 0.75 (4) insufficient information to tell
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