Q2 A catalytic dehydrogenation process shown in below produces 1,2-butadiene (C,H,) from pure normal butane (C4H,,). The product stream contains 75 mol/h of H, and 13 mol/h of C4Hy, as well as CyH. The recycle stream is 30% (mol) C4H, o and 70% (mol) C,Hy, and the flow is 24 mol/h. C4Hyg — C4Hg + 2H, Pure C4Hyo A ProductP Frmolh nfy, =75mol/h ng,u,, = 13 mol/h o ne,n, =7 R_Recycle 30.0% Ny, 70.0% ne,y, 1. What is the feed rate, F, and the product flow rate of C;H leaving the process? 2. What is the single-pass conversion of butane in the process? Q2A catalytic dehydrogenation process shown in below produces 1,2-butadiene (C4H6) from purenormal butane (C4H10). The product stream contains 75 mol/h of H2 and 13 mol/h of C4H10 as wellas C,H6. The recycle stream is 30% (mol) C,H10 and 70% (mol) C,H6, and the flow is 24 mol/h.C4H10C4H6 + 2H2Pure C,H10Product Pn, = 75 mol/hne,Ho = 13 mol/hne,H, =?ReactorSeparatorF=? mol/hR Recycle30.0% nc,H1070.0% nc,H61. What is the feed rate, F, and the product flow rate of C4H6 leaving the process?2. What is the single-pass conversion of butane in the process?

In process calculation or reactor designing the most important to analyzing the behavior or how the…

Answered: Product P n, = 75 mol/h = 13 mol/h Pure…

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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Q2 A catalytic dehydrogenation process shown in below produces 1,2-butadiene (C,H,) from pure normal butane (C4H,,). The product stream contains 75 mol/h of H, and 13 mol/h of C4Hy, as well as CyH. The recycle stream is 30% (mol) C4H, o and 70% (mol) C,Hy, and the flow is 24 mol/h. C4Hyg — C4Hg + 2H, Pure C4Hyo A ProductP Frmolh nfy, =75mol/h ng,u,, = 13 mol/h o ne,n, =7 R_Recycle 30.0% Ny, 70.0% ne,y, 1. What is the feed rate, F, and the product flow rate of C;H leaving the process? 2. What is the single-pass conversion of butane in the process?

Q2
A catalytic dehydrogenation process shown in below produces 1,2-butadiene (C4H6) from pure
normal butane (C4H10). The product stream contains 75 mol/h of H2 and 13 mol/h of C4H10 as well
as C,H6. The recycle stream is 30% (mol) C,H10 and 70% (mol) C,H6, and the flow is 24 mol/h.
C4H10
C4H6 + 2H2
Pure C,H10
Product P
n, = 75 mol/h
ne,Ho = 13 mol/h
ne,H, =?
Reactor
Separator
F=? mol/h
R Recycle
30.0% nc,H10
70.0% nc,H6
1. What is the feed rate, F, and the product flow rate of C4H6 leaving the process?
2. What is the single-pass conversion of butane in the process?

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