Q1 The feed to a propylene ammoxidation process contains 14.55 % of C3H6 by mass, 7.0 % ammonia by mass, and 78.45 % air by mass. A fractional conversion of 30.0% of the limiting reactant is achieved, taking 1000 kg feed as a basis, determine the ratio of the unreacted oxygen to the feed by mass, the percentage by which each of the other reactions is in excess, and the mass amounts of all product gas constituents for a 30% conversion of the limiting reactant Feed = 100 mole P = ? Reactor = 0.1455 =? NC3H6 NNH3 =? xa = 0.07 noz =? Xair = 0.7845 =? NC3H3N =? NH20 =? C3H, + NH3 + 3/2 02 → C3H3N + 3H20

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
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Q1
The feed to a propylene ammoxidation process contains 14.55 % of C3H6 by
mass, 7.0 % ammonia by mass, and 78.45 % air by mass. A fractional conversion
of 30.0% of the limiting reactant is achieved, taking 1000 kg feed as a basis,
determine the ratio of the unreacted oxygen to the feed by mass, the percentage
by which each of the other reactions is in excess, and the mass amounts of all
product gas constituents for a 30% conversion of the limiting reactant
Feed = 100 mole
P = ?
Reactor
= 0.1455
=?
NC3H6
=?
NNH3
xa = 0.07
noz
=?
Xair = 0.7845
=?
NC3H3N =?
NH20
=?
C3H, + NH3 + 3/2 02
→ C3H3N + 3H20
Transcribed Image Text:Q1 The feed to a propylene ammoxidation process contains 14.55 % of C3H6 by mass, 7.0 % ammonia by mass, and 78.45 % air by mass. A fractional conversion of 30.0% of the limiting reactant is achieved, taking 1000 kg feed as a basis, determine the ratio of the unreacted oxygen to the feed by mass, the percentage by which each of the other reactions is in excess, and the mass amounts of all product gas constituents for a 30% conversion of the limiting reactant Feed = 100 mole P = ? Reactor = 0.1455 =? NC3H6 =? NNH3 xa = 0.07 noz =? Xair = 0.7845 =? NC3H3N =? NH20 =? C3H, + NH3 + 3/2 02 → C3H3N + 3H20
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