The process shown in below they think too much alcohol is lost in the bottoms (waste). Calculate the composition of the bottoms and the mass of the alcohol lost in the bottoms based on the data shown in figure that were collected in 1 h of operation. Finally, determine the percentage of the EtOH entering the column that is lost in the waste stream. vapor Reflux Distillation (product) P=? kg XELOH = 0.6 x,0 = 0.4 P = 1/10 Feed %3D Feed = 1000 kg, F! Distillatio n XEtoH = 0.1 x,0 = 0.9 column Bottom (waste) B=? kg = ? B XH,0 = ?
The process shown in below they think too much alcohol is lost in the bottoms (waste). Calculate the composition of the bottoms and the mass of the alcohol lost in the bottoms based on the data shown in figure that were collected in 1 h of operation. Finally, determine the percentage of the EtOH entering the column that is lost in the waste stream. vapor Reflux Distillation (product) P=? kg XELOH = 0.6 x,0 = 0.4 P = 1/10 Feed %3D Feed = 1000 kg, F! Distillatio n XEtoH = 0.1 x,0 = 0.9 column Bottom (waste) B=? kg = ? B XH,0 = ?
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:The process shown in below they think too much alcohol is lost in the bottoms (waste).
Calculate the composition of the bottoms and the mass of the alcohol lost in the bottoms
based on the data shown in figure that were collected in 1h of operation. Finally, determine
the percentage of the EtOH entering the column that is lost in the waste stream.
vapor
Reflux
Distillation (product) P=? kg
XELOH = 0.6
Xi,0 = 0.4
P= 1/10 Feed
Feed = 1000 kg, F!
Distillatio
= 0.1
column
XH20 = 0.9
Bottom (waste) B=? kg
xtOH = ?
„B
xH,0 =?
Page 10 of 14
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