Hydingen can be abtained (o ieiiane by the stean et sefocmbig remtion CH MO =% €O, A s st containing 53 mole % wweihane and 47 awle % water s fod into @ reacion (a) Determine which compenent in he Fas MINUTE i the liminng reactant. Sehoct @ basis of 100 moles of gas in the feed sream. () Determine the percentage by which the otlher reactant is in excess. (©) Determine the wmount of cach gas exiting the reactor, i the conversion of the limiting reactant b 29 % Hydrogen can be obtained from methane by the steam methane reforming reactionCH, + H,0 co + 3H,A gas mixture containing 53 mole methane and 47 mole * water is fed into a reactor.(a) Determine which component in the gas mixture is the limiting reactant. Select a basis of100 moles of gas in the feed stream.(b) Determine the percentage by which the other reactant is in excess.(e) Determine the amount of each gas exiting the reactor, if the conversion of the limitingreactant is 25 %.

Hydrogen is obtained from steam methane reforming reaction CH4 + H2O ----> CO + 3H2 In…

Answered: CH,+ H0 CO + 3H, A gas mixture…

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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Hydingen can be abtained (o ieiiane by the stean et sefocmbig remtion CH MO =% €O, A s st containing 53 mole % wweihane and 47 awle % water s fod into @ reacion (a) Determine which compenent in he Fas MINUTE i the liminng reactant. Sehoct @ basis of 100 moles of gas in the feed sream. () Determine the percentage by which the otlher reactant is in excess. (©) Determine the wmount of cach gas exiting the reactor, i the conversion of the limiting reactant b 29 %

Hydrogen can be obtained from methane by the steam methane reforming reaction
CH, + H,0 co + 3H,
A gas mixture containing 53 mole methane and 47 mole * water is fed into a reactor.
(a) Determine which component in the gas mixture is the limiting reactant. Select a basis of
100 moles of gas in the feed stream.
(b) Determine the percentage by which the other reactant is in excess.
(e) Determine the amount of each gas exiting the reactor, if the conversion of the limiting
reactant is 25 %.

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