There is a heterogeneous and triphasic chemical reactor where the following reaction occurs: ?(?) + ?(?) = ?(?) + ?(?) ∆?? = 84300.0 ? If the above reactants and products are contained in a closed container and the reaction system is in equilibrium, the number of moles of component ? can be reduced in which of the following situations? i. Adding ?(?) to the reactor. ii. By removing some ?(?) from the reactor.
There is a heterogeneous and triphasic chemical reactor where the following reaction occurs: ?(?) + ?(?) = ?(?) + ?(?) ∆?? = 84300.0 ? If the above reactants and products are contained in a closed container and the reaction system is in equilibrium, the number of moles of component ? can be reduced in which of the following situations? i. Adding ?(?) to the reactor. ii. By removing some ?(?) from the reactor.
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
There is a heterogeneous and triphasic chemical reactor where the following reaction occurs:
?(?) + ?(?) = ?(?) + ?(?) ∆?? = 84300.0 ?
If the above reactants and products are contained in a closed container and the reaction system is in equilibrium, the number of moles of component ? can be reduced in which of the following situations?
i. Adding ?(?) to the reactor.
ii. By removing some ?(?) from the reactor.
iii. Decreasing the size/volume ratio of the reactor.
IV. increasing the temperature of the reactor.
v. Adding ?(?) to the system.
Transcribed Image Text:There is a heterogeneous
and triphasic
chemical reactor where the following reaction
occurs:
A(s) + B(1) = C(g) + D(g) AHo=84300.0 J
If the above reactants and products are
contained in a closed container and the
reaction system is in equilibrium, the number of
moles of component C can be reduced in which
of the following situations?
Yo. Adding A(s) to the reactor.
ii. By removing some D(g) from the reactor.
iii. Decreasing the size/volume ratio of the
reactor.
IV. increasing the temperature of the reactor.
v. Adding B(1) to the system.
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The reaction system and the equations used
VIEW(i) Effect of the Addition of A(s) on the concentration of the gaseous species C
VIEW(ii) Effect of the removal of D(g) on the concentration of the gaseous species C
VIEW(iii) Decreasing the volume of the reactor on the concentration of the gaseous species C
VIEW(iv) Increasing the temperature of the reactor on the concentration of the gaseous species C
VIEW(v) Effect of the Addition of B(l) on the concentration of the gaseous species C
VIEW
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