actionating column is to be designed for separating 1000 kgmole per hour of a liquid mixture containing 40 mole percent methanol and 60 mole percent water into an overhead product containi 97 mole percent methanol and a bottom product having 98 mole percent water. A mole reflux ratio of 3 is t Calculate (i) moles of overhead product obtained per hour and (ii) number of ideal plates and location of the feed plate if the feed is at its bubble point, (iii) Renia graphically, (iv) minimum number of stages graphical Equilibrium data: shown in figure below Where x mole fraction of methanol in liquid And y mole fraction of methanol in vapor Data: Feed rate 1000 kg/hr, XF =0.4 =0.97 Xw = 0.02, R= 3 Q4- Answer (A or B) & C

actionating column is to be designed for separating 1000 kgmole per hour of a liquid mixture containing 40 mole percent methanol and 60 mole percent water into an overhead product containi 97 mole percent methanol and a bottom product having 98 mole percent water. A mole reflux ratio of 3 is t Calculate (i) moles of overhead product obtained per hour and (ii) number of ideal plates and location of the feed plate if the feed is at its bubble point, (iii) Renia graphically, (iv) minimum number of stages graphical Equilibrium data: shown in figure below Where x mole fraction of methanol in liquid And y mole fraction of methanol in vapor Data: Feed rate 1000 kg/hr, XF =0.4 =0.97 Xw = 0.02, R= 3 Q4- Answer (A or B) & 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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Question

Q3- A continuous fractionating column is to be designed for separating 1000 kgmole per hour of a liquid
mixture containing 40 mole percent methanol and 60 mole percent water into an overhead product containi
97 mole percent methanol and a bottom product having 98 mole percent water. A mole reflux ratio of 3 is u
Calculate (i) moles of overhead product obtained per hour and (ii) number of ideal plates and location of the
feed plate if the feed is at its bubble point, (iii) Raia graphically, (iv) minimum number of stages graphicall
Equilibrium data: shown in figure below
Where x mole fraction of methanol in liquid
And y mole fraction of methanol in vapor
Data: Feed rate = 1000 kg/hr, Xp 0.4 =0.97, xw 0.02, R=3
Q4-Answer (A or B) & C

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